/******/ (() => { // webpackBootstrap /******/ var __webpack_modules__ = ({ /***/ 27799: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; var desc = Object.getOwnPropertyDescriptor(m, k); if (!desc || ("get" in desc ? !m.__esModule : desc.writable || desc.configurable)) { desc = { enumerable: true, get: function() { return m[k]; } }; } Object.defineProperty(o, k2, desc); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.prototype.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.saveCache = exports.restoreCache = exports.isFeatureAvailable = exports.ReserveCacheError = exports.ValidationError = void 0; const core = __importStar(__nccwpck_require__(42186)); const path = __importStar(__nccwpck_require__(71017)); const utils = __importStar(__nccwpck_require__(91518)); const cacheHttpClient = __importStar(__nccwpck_require__(98245)); const tar_1 = __nccwpck_require__(56490); class ValidationError extends Error { constructor(message) { super(message); this.name = 'ValidationError'; Object.setPrototypeOf(this, ValidationError.prototype); } } exports.ValidationError = ValidationError; class ReserveCacheError extends Error { constructor(message) { super(message); this.name = 'ReserveCacheError'; Object.setPrototypeOf(this, ReserveCacheError.prototype); } } exports.ReserveCacheError = ReserveCacheError; function checkPaths(paths) { if (!paths || paths.length === 0) { throw new ValidationError(`Path Validation Error: At least one directory or file path is required`); } } function checkKey(key) { if (key.length > 512) { throw new ValidationError(`Key Validation Error: ${key} cannot be larger than 512 characters.`); } const regex = /^[^,]*$/; if (!regex.test(key)) { throw new ValidationError(`Key Validation Error: ${key} cannot contain commas.`); } } /** * isFeatureAvailable to check the presence of Actions cache service * * @returns boolean return true if Actions cache service feature is available, otherwise false */ function isFeatureAvailable() { return !!process.env['ACTIONS_CACHE_URL']; } exports.isFeatureAvailable = isFeatureAvailable; /** * Restores cache from keys * * @param paths a list of file paths to restore from the cache * @param primaryKey an explicit key for restoring the cache * @param restoreKeys an optional ordered list of keys to use for restoring the cache if no cache hit occurred for key * @param downloadOptions cache download options * @param enableCrossOsArchive an optional boolean enabled to restore on windows any cache created on any platform * @returns string returns the key for the cache hit, otherwise returns undefined */ function restoreCache(paths, primaryKey, restoreKeys, options, enableCrossOsArchive = false) { return __awaiter(this, void 0, void 0, function* () { checkPaths(paths); restoreKeys = restoreKeys || []; const keys = [primaryKey, ...restoreKeys]; core.debug('Resolved Keys:'); core.debug(JSON.stringify(keys)); if (keys.length > 10) { throw new ValidationError(`Key Validation Error: Keys are limited to a maximum of 10.`); } for (const key of keys) { checkKey(key); } const compressionMethod = yield utils.getCompressionMethod(); let archivePath = ''; try { // path are needed to compute version const cacheEntry = yield cacheHttpClient.getCacheEntry(keys, paths, { compressionMethod, enableCrossOsArchive }); if (!(cacheEntry === null || cacheEntry === void 0 ? void 0 : cacheEntry.archiveLocation)) { // Cache not found return undefined; } if (options === null || options === void 0 ? void 0 : options.lookupOnly) { core.info('Lookup only - skipping download'); return cacheEntry.cacheKey; } archivePath = path.join(yield utils.createTempDirectory(), utils.getCacheFileName(compressionMethod)); core.debug(`Archive Path: ${archivePath}`); // Download the cache from the cache entry yield cacheHttpClient.downloadCache(cacheEntry.archiveLocation, archivePath, options); if (core.isDebug()) { yield (0, tar_1.listTar)(archivePath, compressionMethod); } const archiveFileSize = utils.getArchiveFileSizeInBytes(archivePath); core.info(`Cache Size: ~${Math.round(archiveFileSize / (1024 * 1024))} MB (${archiveFileSize} B)`); yield (0, tar_1.extractTar)(archivePath, compressionMethod); core.info('Cache restored successfully'); return cacheEntry.cacheKey; } catch (error) { const typedError = error; if (typedError.name === ValidationError.name) { throw error; } else { // Supress all non-validation cache related errors because caching should be optional core.warning(`Failed to restore: ${error.message}`); } } finally { // Try to delete the archive to save space try { yield utils.unlinkFile(archivePath); } catch (error) { core.debug(`Failed to delete archive: ${error}`); } } return undefined; }); } exports.restoreCache = restoreCache; /** * Saves a list of files with the specified key * * @param paths a list of file paths to be cached * @param key an explicit key for restoring the cache * @param enableCrossOsArchive an optional boolean enabled to save cache on windows which could be restored on any platform * @param options cache upload options * @returns number returns cacheId if the cache was saved successfully and throws an error if save fails */ function saveCache(paths, key, options, enableCrossOsArchive = false) { var _a, _b, _c, _d, _e; return __awaiter(this, void 0, void 0, function* () { checkPaths(paths); checkKey(key); const compressionMethod = yield utils.getCompressionMethod(); let cacheId = -1; const cachePaths = yield utils.resolvePaths(paths); core.debug('Cache Paths:'); core.debug(`${JSON.stringify(cachePaths)}`); if (cachePaths.length === 0) { throw new Error(`Path Validation Error: Path(s) specified in the action for caching do(es) not exist, hence no cache is being saved.`); } const archiveFolder = yield utils.createTempDirectory(); const archivePath = path.join(archiveFolder, utils.getCacheFileName(compressionMethod)); core.debug(`Archive Path: ${archivePath}`); try { yield (0, tar_1.createTar)(archiveFolder, cachePaths, compressionMethod); if (core.isDebug()) { yield (0, tar_1.listTar)(archivePath, compressionMethod); } const fileSizeLimit = 10 * 1024 * 1024 * 1024; // 10GB per repo limit const archiveFileSize = utils.getArchiveFileSizeInBytes(archivePath); core.debug(`File Size: ${archiveFileSize}`); // For GHES, this check will take place in ReserveCache API with enterprise file size limit if (archiveFileSize > fileSizeLimit && !utils.isGhes()) { throw new Error(`Cache size of ~${Math.round(archiveFileSize / (1024 * 1024))} MB (${archiveFileSize} B) is over the 10GB limit, not saving cache.`); } core.debug('Reserving Cache'); const reserveCacheResponse = yield cacheHttpClient.reserveCache(key, paths, { compressionMethod, enableCrossOsArchive, cacheSize: archiveFileSize }); if ((_a = reserveCacheResponse === null || reserveCacheResponse === void 0 ? void 0 : reserveCacheResponse.result) === null || _a === void 0 ? void 0 : _a.cacheId) { cacheId = (_b = reserveCacheResponse === null || reserveCacheResponse === void 0 ? void 0 : reserveCacheResponse.result) === null || _b === void 0 ? void 0 : _b.cacheId; } else if ((reserveCacheResponse === null || reserveCacheResponse === void 0 ? void 0 : reserveCacheResponse.statusCode) === 400) { throw new Error((_d = (_c = reserveCacheResponse === null || reserveCacheResponse === void 0 ? void 0 : reserveCacheResponse.error) === null || _c === void 0 ? void 0 : _c.message) !== null && _d !== void 0 ? _d : `Cache size of ~${Math.round(archiveFileSize / (1024 * 1024))} MB (${archiveFileSize} B) is over the data cap limit, not saving cache.`); } else { throw new ReserveCacheError(`Unable to reserve cache with key ${key}, another job may be creating this cache. More details: ${(_e = reserveCacheResponse === null || reserveCacheResponse === void 0 ? void 0 : reserveCacheResponse.error) === null || _e === void 0 ? void 0 : _e.message}`); } core.debug(`Saving Cache (ID: ${cacheId})`); yield cacheHttpClient.saveCache(cacheId, archivePath, options); } catch (error) { const typedError = error; if (typedError.name === ValidationError.name) { throw error; } else if (typedError.name === ReserveCacheError.name) { core.info(`Failed to save: ${typedError.message}`); } else { core.warning(`Failed to save: ${typedError.message}`); } } finally { // Try to delete the archive to save space try { yield utils.unlinkFile(archivePath); } catch (error) { core.debug(`Failed to delete archive: ${error}`); } } return cacheId; }); } exports.saveCache = saveCache; //# sourceMappingURL=cache.js.map /***/ }), /***/ 98245: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; var desc = Object.getOwnPropertyDescriptor(m, k); if (!desc || ("get" in desc ? !m.__esModule : desc.writable || desc.configurable)) { desc = { enumerable: true, get: function() { return m[k]; } }; } Object.defineProperty(o, k2, desc); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.prototype.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.saveCache = exports.reserveCache = exports.downloadCache = exports.getCacheEntry = exports.getCacheVersion = void 0; const core = __importStar(__nccwpck_require__(42186)); const http_client_1 = __nccwpck_require__(21825); const auth_1 = __nccwpck_require__(32001); const crypto = __importStar(__nccwpck_require__(6113)); const fs = __importStar(__nccwpck_require__(57147)); const url_1 = __nccwpck_require__(57310); const utils = __importStar(__nccwpck_require__(91518)); const downloadUtils_1 = __nccwpck_require__(55500); const options_1 = __nccwpck_require__(76215); const requestUtils_1 = __nccwpck_require__(13981); const versionSalt = '1.0'; function getCacheApiUrl(resource) { const baseUrl = process.env['ACTIONS_CACHE_URL'] || ''; if (!baseUrl) { throw new Error('Cache Service Url not found, unable to restore cache.'); } const url = `${baseUrl}_apis/artifactcache/${resource}`; core.debug(`Resource Url: ${url}`); return url; } function createAcceptHeader(type, apiVersion) { return `${type};api-version=${apiVersion}`; } function getRequestOptions() { const requestOptions = { headers: { Accept: createAcceptHeader('application/json', '6.0-preview.1') } }; return requestOptions; } function createHttpClient() { const token = process.env['ACTIONS_RUNTIME_TOKEN'] || ''; const bearerCredentialHandler = new auth_1.BearerCredentialHandler(token); return new http_client_1.HttpClient('actions/cache', [bearerCredentialHandler], getRequestOptions()); } function getCacheVersion(paths, compressionMethod, enableCrossOsArchive = false) { const components = paths; // Add compression method to cache version to restore // compressed cache as per compression method if (compressionMethod) { components.push(compressionMethod); } // Only check for windows platforms if enableCrossOsArchive is false if (process.platform === 'win32' && !enableCrossOsArchive) { components.push('windows-only'); } // Add salt to cache version to support breaking changes in cache entry components.push(versionSalt); return crypto.createHash('sha256').update(components.join('|')).digest('hex'); } exports.getCacheVersion = getCacheVersion; function getCacheEntry(keys, paths, options) { return __awaiter(this, void 0, void 0, function* () { const httpClient = createHttpClient(); const version = getCacheVersion(paths, options === null || options === void 0 ? void 0 : options.compressionMethod, options === null || options === void 0 ? void 0 : options.enableCrossOsArchive); const resource = `cache?keys=${encodeURIComponent(keys.join(','))}&version=${version}`; const response = yield (0, requestUtils_1.retryTypedResponse)('getCacheEntry', () => __awaiter(this, void 0, void 0, function* () { return httpClient.getJson(getCacheApiUrl(resource)); })); // Cache not found if (response.statusCode === 204) { // List cache for primary key only if cache miss occurs if (core.isDebug()) { yield printCachesListForDiagnostics(keys[0], httpClient, version); } return null; } if (!(0, requestUtils_1.isSuccessStatusCode)(response.statusCode)) { throw new Error(`Cache service responded with ${response.statusCode}`); } const cacheResult = response.result; const cacheDownloadUrl = cacheResult === null || cacheResult === void 0 ? void 0 : cacheResult.archiveLocation; if (!cacheDownloadUrl) { // Cache achiveLocation not found. This should never happen, and hence bail out. throw new Error('Cache not found.'); } core.setSecret(cacheDownloadUrl); core.debug(`Cache Result:`); core.debug(JSON.stringify(cacheResult)); return cacheResult; }); } exports.getCacheEntry = getCacheEntry; function printCachesListForDiagnostics(key, httpClient, version) { return __awaiter(this, void 0, void 0, function* () { const resource = `caches?key=${encodeURIComponent(key)}`; const response = yield (0, requestUtils_1.retryTypedResponse)('listCache', () => __awaiter(this, void 0, void 0, function* () { return httpClient.getJson(getCacheApiUrl(resource)); })); if (response.statusCode === 200) { const cacheListResult = response.result; const totalCount = cacheListResult === null || cacheListResult === void 0 ? void 0 : cacheListResult.totalCount; if (totalCount && totalCount > 0) { core.debug(`No matching cache found for cache key '${key}', version '${version} and scope ${process.env['GITHUB_REF']}. There exist one or more cache(s) with similar key but they have different version or scope. See more info on cache matching here: https://docs.github.com/en/actions/using-workflows/caching-dependencies-to-speed-up-workflows#matching-a-cache-key \nOther caches with similar key:`); for (const cacheEntry of (cacheListResult === null || cacheListResult === void 0 ? void 0 : cacheListResult.artifactCaches) || []) { core.debug(`Cache Key: ${cacheEntry === null || cacheEntry === void 0 ? void 0 : cacheEntry.cacheKey}, Cache Version: ${cacheEntry === null || cacheEntry === void 0 ? void 0 : cacheEntry.cacheVersion}, Cache Scope: ${cacheEntry === null || cacheEntry === void 0 ? void 0 : cacheEntry.scope}, Cache Created: ${cacheEntry === null || cacheEntry === void 0 ? void 0 : cacheEntry.creationTime}`); } } } }); } function downloadCache(archiveLocation, archivePath, options) { return __awaiter(this, void 0, void 0, function* () { const archiveUrl = new url_1.URL(archiveLocation); const downloadOptions = (0, options_1.getDownloadOptions)(options); if (archiveUrl.hostname.endsWith('.blob.core.windows.net')) { if (downloadOptions.useAzureSdk) { // Use Azure storage SDK to download caches hosted on Azure to improve speed and reliability. yield (0, downloadUtils_1.downloadCacheStorageSDK)(archiveLocation, archivePath, downloadOptions); } else if (downloadOptions.concurrentBlobDownloads) { // Use concurrent implementation with HttpClient to work around blob SDK issue yield (0, downloadUtils_1.downloadCacheHttpClientConcurrent)(archiveLocation, archivePath, downloadOptions); } else { // Otherwise, download using the Actions http-client. yield (0, downloadUtils_1.downloadCacheHttpClient)(archiveLocation, archivePath); } } else { yield (0, downloadUtils_1.downloadCacheHttpClient)(archiveLocation, archivePath); } }); } exports.downloadCache = downloadCache; // Reserve Cache function reserveCache(key, paths, options) { return __awaiter(this, void 0, void 0, function* () { const httpClient = createHttpClient(); const version = getCacheVersion(paths, options === null || options === void 0 ? void 0 : options.compressionMethod, options === null || options === void 0 ? void 0 : options.enableCrossOsArchive); const reserveCacheRequest = { key, version, cacheSize: options === null || options === void 0 ? void 0 : options.cacheSize }; const response = yield (0, requestUtils_1.retryTypedResponse)('reserveCache', () => __awaiter(this, void 0, void 0, function* () { return httpClient.postJson(getCacheApiUrl('caches'), reserveCacheRequest); })); return response; }); } exports.reserveCache = reserveCache; function getContentRange(start, end) { // Format: `bytes start-end/filesize // start and end are inclusive // filesize can be * // For a 200 byte chunk starting at byte 0: // Content-Range: bytes 0-199/* return `bytes ${start}-${end}/*`; } function uploadChunk(httpClient, resourceUrl, openStream, start, end) { return __awaiter(this, void 0, void 0, function* () { core.debug(`Uploading chunk of size ${end - start + 1} bytes at offset ${start} with content range: ${getContentRange(start, end)}`); const additionalHeaders = { 'Content-Type': 'application/octet-stream', 'Content-Range': getContentRange(start, end) }; const uploadChunkResponse = yield (0, requestUtils_1.retryHttpClientResponse)(`uploadChunk (start: ${start}, end: ${end})`, () => __awaiter(this, void 0, void 0, function* () { return httpClient.sendStream('PATCH', resourceUrl, openStream(), additionalHeaders); })); if (!(0, requestUtils_1.isSuccessStatusCode)(uploadChunkResponse.message.statusCode)) { throw new Error(`Cache service responded with ${uploadChunkResponse.message.statusCode} during upload chunk.`); } }); } function uploadFile(httpClient, cacheId, archivePath, options) { return __awaiter(this, void 0, void 0, function* () { // Upload Chunks const fileSize = utils.getArchiveFileSizeInBytes(archivePath); const resourceUrl = getCacheApiUrl(`caches/${cacheId.toString()}`); const fd = fs.openSync(archivePath, 'r'); const uploadOptions = (0, options_1.getUploadOptions)(options); const concurrency = utils.assertDefined('uploadConcurrency', uploadOptions.uploadConcurrency); const maxChunkSize = utils.assertDefined('uploadChunkSize', uploadOptions.uploadChunkSize); const parallelUploads = [...new Array(concurrency).keys()]; core.debug('Awaiting all uploads'); let offset = 0; try { yield Promise.all(parallelUploads.map(() => __awaiter(this, void 0, void 0, function* () { while (offset < fileSize) { const chunkSize = Math.min(fileSize - offset, maxChunkSize); const start = offset; const end = offset + chunkSize - 1; offset += maxChunkSize; yield uploadChunk(httpClient, resourceUrl, () => fs .createReadStream(archivePath, { fd, start, end, autoClose: false }) .on('error', error => { throw new Error(`Cache upload failed because file read failed with ${error.message}`); }), start, end); } }))); } finally { fs.closeSync(fd); } return; }); } function commitCache(httpClient, cacheId, filesize) { return __awaiter(this, void 0, void 0, function* () { const commitCacheRequest = { size: filesize }; return yield (0, requestUtils_1.retryTypedResponse)('commitCache', () => __awaiter(this, void 0, void 0, function* () { return httpClient.postJson(getCacheApiUrl(`caches/${cacheId.toString()}`), commitCacheRequest); })); }); } function saveCache(cacheId, archivePath, options) { return __awaiter(this, void 0, void 0, function* () { const httpClient = createHttpClient(); core.debug('Upload cache'); yield uploadFile(httpClient, cacheId, archivePath, options); // Commit Cache core.debug('Commiting cache'); const cacheSize = utils.getArchiveFileSizeInBytes(archivePath); core.info(`Cache Size: ~${Math.round(cacheSize / (1024 * 1024))} MB (${cacheSize} B)`); const commitCacheResponse = yield commitCache(httpClient, cacheId, cacheSize); if (!(0, requestUtils_1.isSuccessStatusCode)(commitCacheResponse.statusCode)) { throw new Error(`Cache service responded with ${commitCacheResponse.statusCode} during commit cache.`); } core.info('Cache saved successfully'); }); } exports.saveCache = saveCache; //# sourceMappingURL=cacheHttpClient.js.map /***/ }), /***/ 91518: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; var desc = Object.getOwnPropertyDescriptor(m, k); if (!desc || ("get" in desc ? !m.__esModule : desc.writable || desc.configurable)) { desc = { enumerable: true, get: function() { return m[k]; } }; } Object.defineProperty(o, k2, desc); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.prototype.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; var __asyncValues = (this && this.__asyncValues) || function (o) { if (!Symbol.asyncIterator) throw new TypeError("Symbol.asyncIterator is not defined."); var m = o[Symbol.asyncIterator], i; return m ? m.call(o) : (o = typeof __values === "function" ? __values(o) : o[Symbol.iterator](), i = {}, verb("next"), verb("throw"), verb("return"), i[Symbol.asyncIterator] = function () { return this; }, i); function verb(n) { i[n] = o[n] && function (v) { return new Promise(function (resolve, reject) { v = o[n](v), settle(resolve, reject, v.done, v.value); }); }; } function settle(resolve, reject, d, v) { Promise.resolve(v).then(function(v) { resolve({ value: v, done: d }); }, reject); } }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.isGhes = exports.assertDefined = exports.getGnuTarPathOnWindows = exports.getCacheFileName = exports.getCompressionMethod = exports.unlinkFile = exports.resolvePaths = exports.getArchiveFileSizeInBytes = exports.createTempDirectory = void 0; const core = __importStar(__nccwpck_require__(42186)); const exec = __importStar(__nccwpck_require__(71514)); const glob = __importStar(__nccwpck_require__(31597)); const io = __importStar(__nccwpck_require__(47351)); const fs = __importStar(__nccwpck_require__(57147)); const path = __importStar(__nccwpck_require__(71017)); const semver = __importStar(__nccwpck_require__(3771)); const util = __importStar(__nccwpck_require__(73837)); const uuid_1 = __nccwpck_require__(2155); const constants_1 = __nccwpck_require__(88840); // From https://github.com/actions/toolkit/blob/main/packages/tool-cache/src/tool-cache.ts#L23 function createTempDirectory() { return __awaiter(this, void 0, void 0, function* () { const IS_WINDOWS = process.platform === 'win32'; let tempDirectory = process.env['RUNNER_TEMP'] || ''; if (!tempDirectory) { let baseLocation; if (IS_WINDOWS) { // On Windows use the USERPROFILE env variable baseLocation = process.env['USERPROFILE'] || 'C:\\'; } else { if (process.platform === 'darwin') { baseLocation = '/Users'; } else { baseLocation = '/home'; } } tempDirectory = path.join(baseLocation, 'actions', 'temp'); } const dest = path.join(tempDirectory, (0, uuid_1.v4)()); yield io.mkdirP(dest); return dest; }); } exports.createTempDirectory = createTempDirectory; function getArchiveFileSizeInBytes(filePath) { return fs.statSync(filePath).size; } exports.getArchiveFileSizeInBytes = getArchiveFileSizeInBytes; function resolvePaths(patterns) { var _a, e_1, _b, _c; var _d; return __awaiter(this, void 0, void 0, function* () { const paths = []; const workspace = (_d = process.env['GITHUB_WORKSPACE']) !== null && _d !== void 0 ? _d : process.cwd(); const globber = yield glob.create(patterns.join('\n'), { implicitDescendants: false }); try { for (var _e = true, _f = __asyncValues(globber.globGenerator()), _g; _g = yield _f.next(), _a = _g.done, !_a;) { _c = _g.value; _e = false; try { const file = _c; const relativeFile = path .relative(workspace, file) .replace(new RegExp(`\\${path.sep}`, 'g'), '/'); core.debug(`Matched: ${relativeFile}`); // Paths are made relative so the tar entries are all relative to the root of the workspace. if (relativeFile === '') { // path.relative returns empty string if workspace and file are equal paths.push('.'); } else { paths.push(`${relativeFile}`); } } finally { _e = true; } } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (!_e && !_a && (_b = _f.return)) yield _b.call(_f); } finally { if (e_1) throw e_1.error; } } return paths; }); } exports.resolvePaths = resolvePaths; function unlinkFile(filePath) { return __awaiter(this, void 0, void 0, function* () { return util.promisify(fs.unlink)(filePath); }); } exports.unlinkFile = unlinkFile; function getVersion(app, additionalArgs = []) { return __awaiter(this, void 0, void 0, function* () { let versionOutput = ''; additionalArgs.push('--version'); core.debug(`Checking ${app} ${additionalArgs.join(' ')}`); try { yield exec.exec(`${app}`, additionalArgs, { ignoreReturnCode: true, silent: true, listeners: { stdout: (data) => (versionOutput += data.toString()), stderr: (data) => (versionOutput += data.toString()) } }); } catch (err) { core.debug(err.message); } versionOutput = versionOutput.trim(); core.debug(versionOutput); return versionOutput; }); } // Use zstandard if possible to maximize cache performance function getCompressionMethod() { return __awaiter(this, void 0, void 0, function* () { const versionOutput = yield getVersion('zstd', ['--quiet']); const version = semver.clean(versionOutput); core.debug(`zstd version: ${version}`); if (versionOutput === '') { return constants_1.CompressionMethod.Gzip; } else { return constants_1.CompressionMethod.ZstdWithoutLong; } }); } exports.getCompressionMethod = getCompressionMethod; function getCacheFileName(compressionMethod) { return compressionMethod === constants_1.CompressionMethod.Gzip ? constants_1.CacheFilename.Gzip : constants_1.CacheFilename.Zstd; } exports.getCacheFileName = getCacheFileName; function getGnuTarPathOnWindows() { return __awaiter(this, void 0, void 0, function* () { if (fs.existsSync(constants_1.GnuTarPathOnWindows)) { return constants_1.GnuTarPathOnWindows; } const versionOutput = yield getVersion('tar'); return versionOutput.toLowerCase().includes('gnu tar') ? io.which('tar') : ''; }); } exports.getGnuTarPathOnWindows = getGnuTarPathOnWindows; function assertDefined(name, value) { if (value === undefined) { throw Error(`Expected ${name} but value was undefiend`); } return value; } exports.assertDefined = assertDefined; function isGhes() { const ghUrl = new URL(process.env['GITHUB_SERVER_URL'] || 'https://github.com'); return ghUrl.hostname.toUpperCase() !== 'GITHUB.COM'; } exports.isGhes = isGhes; //# sourceMappingURL=cacheUtils.js.map /***/ }), /***/ 88840: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.ManifestFilename = exports.TarFilename = exports.SystemTarPathOnWindows = exports.GnuTarPathOnWindows = exports.SocketTimeout = exports.DefaultRetryDelay = exports.DefaultRetryAttempts = exports.ArchiveToolType = exports.CompressionMethod = exports.CacheFilename = void 0; var CacheFilename; (function (CacheFilename) { CacheFilename["Gzip"] = "cache.tgz"; CacheFilename["Zstd"] = "cache.tzst"; })(CacheFilename = exports.CacheFilename || (exports.CacheFilename = {})); var CompressionMethod; (function (CompressionMethod) { CompressionMethod["Gzip"] = "gzip"; // Long range mode was added to zstd in v1.3.2. // This enum is for earlier version of zstd that does not have --long support CompressionMethod["ZstdWithoutLong"] = "zstd-without-long"; CompressionMethod["Zstd"] = "zstd"; })(CompressionMethod = exports.CompressionMethod || (exports.CompressionMethod = {})); var ArchiveToolType; (function (ArchiveToolType) { ArchiveToolType["GNU"] = "gnu"; ArchiveToolType["BSD"] = "bsd"; })(ArchiveToolType = exports.ArchiveToolType || (exports.ArchiveToolType = {})); // The default number of retry attempts. exports.DefaultRetryAttempts = 2; // The default delay in milliseconds between retry attempts. exports.DefaultRetryDelay = 5000; // Socket timeout in milliseconds during download. If no traffic is received // over the socket during this period, the socket is destroyed and the download // is aborted. exports.SocketTimeout = 5000; // The default path of GNUtar on hosted Windows runners exports.GnuTarPathOnWindows = `${process.env['PROGRAMFILES']}\\Git\\usr\\bin\\tar.exe`; // The default path of BSDtar on hosted Windows runners exports.SystemTarPathOnWindows = `${process.env['SYSTEMDRIVE']}\\Windows\\System32\\tar.exe`; exports.TarFilename = 'cache.tar'; exports.ManifestFilename = 'manifest.txt'; //# sourceMappingURL=constants.js.map /***/ }), /***/ 55500: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; var desc = Object.getOwnPropertyDescriptor(m, k); if (!desc || ("get" in desc ? !m.__esModule : desc.writable || desc.configurable)) { desc = { enumerable: true, get: function() { return m[k]; } }; } Object.defineProperty(o, k2, desc); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.prototype.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.downloadCacheStorageSDK = exports.downloadCacheHttpClientConcurrent = exports.downloadCacheHttpClient = exports.DownloadProgress = void 0; const core = __importStar(__nccwpck_require__(42186)); const http_client_1 = __nccwpck_require__(21825); const storage_blob_1 = __nccwpck_require__(84100); const buffer = __importStar(__nccwpck_require__(14300)); const fs = __importStar(__nccwpck_require__(57147)); const stream = __importStar(__nccwpck_require__(12781)); const util = __importStar(__nccwpck_require__(73837)); const utils = __importStar(__nccwpck_require__(91518)); const constants_1 = __nccwpck_require__(88840); const requestUtils_1 = __nccwpck_require__(13981); const abort_controller_1 = __nccwpck_require__(52557); /** * Pipes the body of a HTTP response to a stream * * @param response the HTTP response * @param output the writable stream */ function pipeResponseToStream(response, output) { return __awaiter(this, void 0, void 0, function* () { const pipeline = util.promisify(stream.pipeline); yield pipeline(response.message, output); }); } /** * Class for tracking the download state and displaying stats. */ class DownloadProgress { constructor(contentLength) { this.contentLength = contentLength; this.segmentIndex = 0; this.segmentSize = 0; this.segmentOffset = 0; this.receivedBytes = 0; this.displayedComplete = false; this.startTime = Date.now(); } /** * Progress to the next segment. Only call this method when the previous segment * is complete. * * @param segmentSize the length of the next segment */ nextSegment(segmentSize) { this.segmentOffset = this.segmentOffset + this.segmentSize; this.segmentIndex = this.segmentIndex + 1; this.segmentSize = segmentSize; this.receivedBytes = 0; core.debug(`Downloading segment at offset ${this.segmentOffset} with length ${this.segmentSize}...`); } /** * Sets the number of bytes received for the current segment. * * @param receivedBytes the number of bytes received */ setReceivedBytes(receivedBytes) { this.receivedBytes = receivedBytes; } /** * Returns the total number of bytes transferred. */ getTransferredBytes() { return this.segmentOffset + this.receivedBytes; } /** * Returns true if the download is complete. */ isDone() { return this.getTransferredBytes() === this.contentLength; } /** * Prints the current download stats. Once the download completes, this will print one * last line and then stop. */ display() { if (this.displayedComplete) { return; } const transferredBytes = this.segmentOffset + this.receivedBytes; const percentage = (100 * (transferredBytes / this.contentLength)).toFixed(1); const elapsedTime = Date.now() - this.startTime; const downloadSpeed = (transferredBytes / (1024 * 1024) / (elapsedTime / 1000)).toFixed(1); core.info(`Received ${transferredBytes} of ${this.contentLength} (${percentage}%), ${downloadSpeed} MBs/sec`); if (this.isDone()) { this.displayedComplete = true; } } /** * Returns a function used to handle TransferProgressEvents. */ onProgress() { return (progress) => { this.setReceivedBytes(progress.loadedBytes); }; } /** * Starts the timer that displays the stats. * * @param delayInMs the delay between each write */ startDisplayTimer(delayInMs = 1000) { const displayCallback = () => { this.display(); if (!this.isDone()) { this.timeoutHandle = setTimeout(displayCallback, delayInMs); } }; this.timeoutHandle = setTimeout(displayCallback, delayInMs); } /** * Stops the timer that displays the stats. As this typically indicates the download * is complete, this will display one last line, unless the last line has already * been written. */ stopDisplayTimer() { if (this.timeoutHandle) { clearTimeout(this.timeoutHandle); this.timeoutHandle = undefined; } this.display(); } } exports.DownloadProgress = DownloadProgress; /** * Download the cache using the Actions toolkit http-client * * @param archiveLocation the URL for the cache * @param archivePath the local path where the cache is saved */ function downloadCacheHttpClient(archiveLocation, archivePath) { return __awaiter(this, void 0, void 0, function* () { const writeStream = fs.createWriteStream(archivePath); const httpClient = new http_client_1.HttpClient('actions/cache'); const downloadResponse = yield (0, requestUtils_1.retryHttpClientResponse)('downloadCache', () => __awaiter(this, void 0, void 0, function* () { return httpClient.get(archiveLocation); })); // Abort download if no traffic received over the socket. downloadResponse.message.socket.setTimeout(constants_1.SocketTimeout, () => { downloadResponse.message.destroy(); core.debug(`Aborting download, socket timed out after ${constants_1.SocketTimeout} ms`); }); yield pipeResponseToStream(downloadResponse, writeStream); // Validate download size. const contentLengthHeader = downloadResponse.message.headers['content-length']; if (contentLengthHeader) { const expectedLength = parseInt(contentLengthHeader); const actualLength = utils.getArchiveFileSizeInBytes(archivePath); if (actualLength !== expectedLength) { throw new Error(`Incomplete download. Expected file size: ${expectedLength}, actual file size: ${actualLength}`); } } else { core.debug('Unable to validate download, no Content-Length header'); } }); } exports.downloadCacheHttpClient = downloadCacheHttpClient; /** * Download the cache using the Actions toolkit http-client concurrently * * @param archiveLocation the URL for the cache * @param archivePath the local path where the cache is saved */ function downloadCacheHttpClientConcurrent(archiveLocation, archivePath, options) { var _a; return __awaiter(this, void 0, void 0, function* () { const archiveDescriptor = yield fs.promises.open(archivePath, 'w'); const httpClient = new http_client_1.HttpClient('actions/cache', undefined, { socketTimeout: options.timeoutInMs, keepAlive: true }); try { const res = yield (0, requestUtils_1.retryHttpClientResponse)('downloadCacheMetadata', () => __awaiter(this, void 0, void 0, function* () { return yield httpClient.request('HEAD', archiveLocation, null, {}); })); const lengthHeader = res.message.headers['content-length']; if (lengthHeader === undefined || lengthHeader === null) { throw new Error('Content-Length not found on blob response'); } const length = parseInt(lengthHeader); if (Number.isNaN(length)) { throw new Error(`Could not interpret Content-Length: ${length}`); } const downloads = []; const blockSize = 4 * 1024 * 1024; for (let offset = 0; offset < length; offset += blockSize) { const count = Math.min(blockSize, length - offset); downloads.push({ offset, promiseGetter: () => __awaiter(this, void 0, void 0, function* () { return yield downloadSegmentRetry(httpClient, archiveLocation, offset, count); }) }); } // reverse to use .pop instead of .shift downloads.reverse(); let actives = 0; let bytesDownloaded = 0; const progress = new DownloadProgress(length); progress.startDisplayTimer(); const progressFn = progress.onProgress(); const activeDownloads = []; let nextDownload; const waitAndWrite = () => __awaiter(this, void 0, void 0, function* () { const segment = yield Promise.race(Object.values(activeDownloads)); yield archiveDescriptor.write(segment.buffer, 0, segment.count, segment.offset); actives--; delete activeDownloads[segment.offset]; bytesDownloaded += segment.count; progressFn({ loadedBytes: bytesDownloaded }); }); while ((nextDownload = downloads.pop())) { activeDownloads[nextDownload.offset] = nextDownload.promiseGetter(); actives++; if (actives >= ((_a = options.downloadConcurrency) !== null && _a !== void 0 ? _a : 10)) { yield waitAndWrite(); } } while (actives > 0) { yield waitAndWrite(); } } finally { httpClient.dispose(); yield archiveDescriptor.close(); } }); } exports.downloadCacheHttpClientConcurrent = downloadCacheHttpClientConcurrent; function downloadSegmentRetry(httpClient, archiveLocation, offset, count) { return __awaiter(this, void 0, void 0, function* () { const retries = 5; let failures = 0; while (true) { try { const timeout = 30000; const result = yield promiseWithTimeout(timeout, downloadSegment(httpClient, archiveLocation, offset, count)); if (typeof result === 'string') { throw new Error('downloadSegmentRetry failed due to timeout'); } return result; } catch (err) { if (failures >= retries) { throw err; } failures++; } } }); } function downloadSegment(httpClient, archiveLocation, offset, count) { return __awaiter(this, void 0, void 0, function* () { const partRes = yield (0, requestUtils_1.retryHttpClientResponse)('downloadCachePart', () => __awaiter(this, void 0, void 0, function* () { return yield httpClient.get(archiveLocation, { Range: `bytes=${offset}-${offset + count - 1}` }); })); if (!partRes.readBodyBuffer) { throw new Error('Expected HttpClientResponse to implement readBodyBuffer'); } return { offset, count, buffer: yield partRes.readBodyBuffer() }; }); } /** * Download the cache using the Azure Storage SDK. Only call this method if the * URL points to an Azure Storage endpoint. * * @param archiveLocation the URL for the cache * @param archivePath the local path where the cache is saved * @param options the download options with the defaults set */ function downloadCacheStorageSDK(archiveLocation, archivePath, options) { var _a; return __awaiter(this, void 0, void 0, function* () { const client = new storage_blob_1.BlockBlobClient(archiveLocation, undefined, { retryOptions: { // Override the timeout used when downloading each 4 MB chunk // The default is 2 min / MB, which is way too slow tryTimeoutInMs: options.timeoutInMs } }); const properties = yield client.getProperties(); const contentLength = (_a = properties.contentLength) !== null && _a !== void 0 ? _a : -1; if (contentLength < 0) { // We should never hit this condition, but just in case fall back to downloading the // file as one large stream core.debug('Unable to determine content length, downloading file with http-client...'); yield downloadCacheHttpClient(archiveLocation, archivePath); } else { // Use downloadToBuffer for faster downloads, since internally it splits the // file into 4 MB chunks which can then be parallelized and retried independently // // If the file exceeds the buffer maximum length (~1 GB on 32-bit systems and ~2 GB // on 64-bit systems), split the download into multiple segments // ~2 GB = 2147483647, beyond this, we start getting out of range error. So, capping it accordingly. // Updated segment size to 128MB = 134217728 bytes, to complete a segment faster and fail fast const maxSegmentSize = Math.min(134217728, buffer.constants.MAX_LENGTH); const downloadProgress = new DownloadProgress(contentLength); const fd = fs.openSync(archivePath, 'w'); try { downloadProgress.startDisplayTimer(); const controller = new abort_controller_1.AbortController(); const abortSignal = controller.signal; while (!downloadProgress.isDone()) { const segmentStart = downloadProgress.segmentOffset + downloadProgress.segmentSize; const segmentSize = Math.min(maxSegmentSize, contentLength - segmentStart); downloadProgress.nextSegment(segmentSize); const result = yield promiseWithTimeout(options.segmentTimeoutInMs || 3600000, client.downloadToBuffer(segmentStart, segmentSize, { abortSignal, concurrency: options.downloadConcurrency, onProgress: downloadProgress.onProgress() })); if (result === 'timeout') { controller.abort(); throw new Error('Aborting cache download as the download time exceeded the timeout.'); } else if (Buffer.isBuffer(result)) { fs.writeFileSync(fd, result); } } } finally { downloadProgress.stopDisplayTimer(); fs.closeSync(fd); } } }); } exports.downloadCacheStorageSDK = downloadCacheStorageSDK; const promiseWithTimeout = (timeoutMs, promise) => __awaiter(void 0, void 0, void 0, function* () { let timeoutHandle; const timeoutPromise = new Promise(resolve => { timeoutHandle = setTimeout(() => resolve('timeout'), timeoutMs); }); return Promise.race([promise, timeoutPromise]).then(result => { clearTimeout(timeoutHandle); return result; }); }); //# sourceMappingURL=downloadUtils.js.map /***/ }), /***/ 13981: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; var desc = Object.getOwnPropertyDescriptor(m, k); if (!desc || ("get" in desc ? !m.__esModule : desc.writable || desc.configurable)) { desc = { enumerable: true, get: function() { return m[k]; } }; } Object.defineProperty(o, k2, desc); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.prototype.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.retryHttpClientResponse = exports.retryTypedResponse = exports.retry = exports.isRetryableStatusCode = exports.isServerErrorStatusCode = exports.isSuccessStatusCode = void 0; const core = __importStar(__nccwpck_require__(42186)); const http_client_1 = __nccwpck_require__(21825); const constants_1 = __nccwpck_require__(88840); function isSuccessStatusCode(statusCode) { if (!statusCode) { return false; } return statusCode >= 200 && statusCode < 300; } exports.isSuccessStatusCode = isSuccessStatusCode; function isServerErrorStatusCode(statusCode) { if (!statusCode) { return true; } return statusCode >= 500; } exports.isServerErrorStatusCode = isServerErrorStatusCode; function isRetryableStatusCode(statusCode) { if (!statusCode) { return false; } const retryableStatusCodes = [ http_client_1.HttpCodes.BadGateway, http_client_1.HttpCodes.ServiceUnavailable, http_client_1.HttpCodes.GatewayTimeout ]; return retryableStatusCodes.includes(statusCode); } exports.isRetryableStatusCode = isRetryableStatusCode; function sleep(milliseconds) { return __awaiter(this, void 0, void 0, function* () { return new Promise(resolve => setTimeout(resolve, milliseconds)); }); } function retry(name, method, getStatusCode, maxAttempts = constants_1.DefaultRetryAttempts, delay = constants_1.DefaultRetryDelay, onError = undefined) { return __awaiter(this, void 0, void 0, function* () { let errorMessage = ''; let attempt = 1; while (attempt <= maxAttempts) { let response = undefined; let statusCode = undefined; let isRetryable = false; try { response = yield method(); } catch (error) { if (onError) { response = onError(error); } isRetryable = true; errorMessage = error.message; } if (response) { statusCode = getStatusCode(response); if (!isServerErrorStatusCode(statusCode)) { return response; } } if (statusCode) { isRetryable = isRetryableStatusCode(statusCode); errorMessage = `Cache service responded with ${statusCode}`; } core.debug(`${name} - Attempt ${attempt} of ${maxAttempts} failed with error: ${errorMessage}`); if (!isRetryable) { core.debug(`${name} - Error is not retryable`); break; } yield sleep(delay); attempt++; } throw Error(`${name} failed: ${errorMessage}`); }); } exports.retry = retry; function retryTypedResponse(name, method, maxAttempts = constants_1.DefaultRetryAttempts, delay = constants_1.DefaultRetryDelay) { return __awaiter(this, void 0, void 0, function* () { return yield retry(name, method, (response) => response.statusCode, maxAttempts, delay, // If the error object contains the statusCode property, extract it and return // an TypedResponse so it can be processed by the retry logic. (error) => { if (error instanceof http_client_1.HttpClientError) { return { statusCode: error.statusCode, result: null, headers: {}, error }; } else { return undefined; } }); }); } exports.retryTypedResponse = retryTypedResponse; function retryHttpClientResponse(name, method, maxAttempts = constants_1.DefaultRetryAttempts, delay = constants_1.DefaultRetryDelay) { return __awaiter(this, void 0, void 0, function* () { return yield retry(name, method, (response) => response.message.statusCode, maxAttempts, delay); }); } exports.retryHttpClientResponse = retryHttpClientResponse; //# sourceMappingURL=requestUtils.js.map /***/ }), /***/ 56490: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; var desc = Object.getOwnPropertyDescriptor(m, k); if (!desc || ("get" in desc ? !m.__esModule : desc.writable || desc.configurable)) { desc = { enumerable: true, get: function() { return m[k]; } }; } Object.defineProperty(o, k2, desc); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.prototype.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.createTar = exports.extractTar = exports.listTar = void 0; const exec_1 = __nccwpck_require__(71514); const io = __importStar(__nccwpck_require__(47351)); const fs_1 = __nccwpck_require__(57147); const path = __importStar(__nccwpck_require__(71017)); const utils = __importStar(__nccwpck_require__(91518)); const constants_1 = __nccwpck_require__(88840); const IS_WINDOWS = process.platform === 'win32'; // Returns tar path and type: BSD or GNU function getTarPath() { return __awaiter(this, void 0, void 0, function* () { switch (process.platform) { case 'win32': { const gnuTar = yield utils.getGnuTarPathOnWindows(); const systemTar = constants_1.SystemTarPathOnWindows; if (gnuTar) { // Use GNUtar as default on windows return { path: gnuTar, type: constants_1.ArchiveToolType.GNU }; } else if ((0, fs_1.existsSync)(systemTar)) { return { path: systemTar, type: constants_1.ArchiveToolType.BSD }; } break; } case 'darwin': { const gnuTar = yield io.which('gtar', false); if (gnuTar) { // fix permission denied errors when extracting BSD tar archive with GNU tar - https://github.com/actions/cache/issues/527 return { path: gnuTar, type: constants_1.ArchiveToolType.GNU }; } else { return { path: yield io.which('tar', true), type: constants_1.ArchiveToolType.BSD }; } } default: break; } // Default assumption is GNU tar is present in path return { path: yield io.which('tar', true), type: constants_1.ArchiveToolType.GNU }; }); } // Return arguments for tar as per tarPath, compressionMethod, method type and os function getTarArgs(tarPath, compressionMethod, type, archivePath = '') { return __awaiter(this, void 0, void 0, function* () { const args = [`"${tarPath.path}"`]; const cacheFileName = utils.getCacheFileName(compressionMethod); const tarFile = 'cache.tar'; const workingDirectory = getWorkingDirectory(); // Speficic args for BSD tar on windows for workaround const BSD_TAR_ZSTD = tarPath.type === constants_1.ArchiveToolType.BSD && compressionMethod !== constants_1.CompressionMethod.Gzip && IS_WINDOWS; // Method specific args switch (type) { case 'create': args.push('--posix', '-cf', BSD_TAR_ZSTD ? tarFile : cacheFileName.replace(new RegExp(`\\${path.sep}`, 'g'), '/'), '--exclude', BSD_TAR_ZSTD ? tarFile : cacheFileName.replace(new RegExp(`\\${path.sep}`, 'g'), '/'), '-P', '-C', workingDirectory.replace(new RegExp(`\\${path.sep}`, 'g'), '/'), '--files-from', constants_1.ManifestFilename); break; case 'extract': args.push('-xf', BSD_TAR_ZSTD ? tarFile : archivePath.replace(new RegExp(`\\${path.sep}`, 'g'), '/'), '-P', '-C', workingDirectory.replace(new RegExp(`\\${path.sep}`, 'g'), '/')); break; case 'list': args.push('-tf', BSD_TAR_ZSTD ? tarFile : archivePath.replace(new RegExp(`\\${path.sep}`, 'g'), '/'), '-P'); break; } // Platform specific args if (tarPath.type === constants_1.ArchiveToolType.GNU) { switch (process.platform) { case 'win32': args.push('--force-local'); break; case 'darwin': args.push('--delay-directory-restore'); break; } } return args; }); } // Returns commands to run tar and compression program function getCommands(compressionMethod, type, archivePath = '') { return __awaiter(this, void 0, void 0, function* () { let args; const tarPath = yield getTarPath(); const tarArgs = yield getTarArgs(tarPath, compressionMethod, type, archivePath); const compressionArgs = type !== 'create' ? yield getDecompressionProgram(tarPath, compressionMethod, archivePath) : yield getCompressionProgram(tarPath, compressionMethod); const BSD_TAR_ZSTD = tarPath.type === constants_1.ArchiveToolType.BSD && compressionMethod !== constants_1.CompressionMethod.Gzip && IS_WINDOWS; if (BSD_TAR_ZSTD && type !== 'create') { args = [[...compressionArgs].join(' '), [...tarArgs].join(' ')]; } else { args = [[...tarArgs].join(' '), [...compressionArgs].join(' ')]; } if (BSD_TAR_ZSTD) { return args; } return [args.join(' ')]; }); } function getWorkingDirectory() { var _a; return (_a = process.env['GITHUB_WORKSPACE']) !== null && _a !== void 0 ? _a : process.cwd(); } // Common function for extractTar and listTar to get the compression method function getDecompressionProgram(tarPath, compressionMethod, archivePath) { return __awaiter(this, void 0, void 0, function* () { // -d: Decompress. // unzstd is equivalent to 'zstd -d' // --long=#: Enables long distance matching with # bits. Maximum is 30 (1GB) on 32-bit OS and 31 (2GB) on 64-bit. // Using 30 here because we also support 32-bit self-hosted runners. const BSD_TAR_ZSTD = tarPath.type === constants_1.ArchiveToolType.BSD && compressionMethod !== constants_1.CompressionMethod.Gzip && IS_WINDOWS; switch (compressionMethod) { case constants_1.CompressionMethod.Zstd: return BSD_TAR_ZSTD ? [ 'zstd -d --long=30 --force -o', constants_1.TarFilename, archivePath.replace(new RegExp(`\\${path.sep}`, 'g'), '/') ] : [ '--use-compress-program', IS_WINDOWS ? '"zstd -d --long=30"' : 'unzstd --long=30' ]; case constants_1.CompressionMethod.ZstdWithoutLong: return BSD_TAR_ZSTD ? [ 'zstd -d --force -o', constants_1.TarFilename, archivePath.replace(new RegExp(`\\${path.sep}`, 'g'), '/') ] : ['--use-compress-program', IS_WINDOWS ? '"zstd -d"' : 'unzstd']; default: return ['-z']; } }); } // Used for creating the archive // -T#: Compress using # working thread. If # is 0, attempt to detect and use the number of physical CPU cores. // zstdmt is equivalent to 'zstd -T0' // --long=#: Enables long distance matching with # bits. Maximum is 30 (1GB) on 32-bit OS and 31 (2GB) on 64-bit. // Using 30 here because we also support 32-bit self-hosted runners. // Long range mode is added to zstd in v1.3.2 release, so we will not use --long in older version of zstd. function getCompressionProgram(tarPath, compressionMethod) { return __awaiter(this, void 0, void 0, function* () { const cacheFileName = utils.getCacheFileName(compressionMethod); const BSD_TAR_ZSTD = tarPath.type === constants_1.ArchiveToolType.BSD && compressionMethod !== constants_1.CompressionMethod.Gzip && IS_WINDOWS; switch (compressionMethod) { case constants_1.CompressionMethod.Zstd: return BSD_TAR_ZSTD ? [ 'zstd -T0 --long=30 --force -o', cacheFileName.replace(new RegExp(`\\${path.sep}`, 'g'), '/'), constants_1.TarFilename ] : [ '--use-compress-program', IS_WINDOWS ? '"zstd -T0 --long=30"' : 'zstdmt --long=30' ]; case constants_1.CompressionMethod.ZstdWithoutLong: return BSD_TAR_ZSTD ? [ 'zstd -T0 --force -o', cacheFileName.replace(new RegExp(`\\${path.sep}`, 'g'), '/'), constants_1.TarFilename ] : ['--use-compress-program', IS_WINDOWS ? '"zstd -T0"' : 'zstdmt']; default: return ['-z']; } }); } // Executes all commands as separate processes function execCommands(commands, cwd) { return __awaiter(this, void 0, void 0, function* () { for (const command of commands) { try { yield (0, exec_1.exec)(command, undefined, { cwd, env: Object.assign(Object.assign({}, process.env), { MSYS: 'winsymlinks:nativestrict' }) }); } catch (error) { throw new Error(`${command.split(' ')[0]} failed with error: ${error === null || error === void 0 ? void 0 : error.message}`); } } }); } // List the contents of a tar function listTar(archivePath, compressionMethod) { return __awaiter(this, void 0, void 0, function* () { const commands = yield getCommands(compressionMethod, 'list', archivePath); yield execCommands(commands); }); } exports.listTar = listTar; // Extract a tar function extractTar(archivePath, compressionMethod) { return __awaiter(this, void 0, void 0, function* () { // Create directory to extract tar into const workingDirectory = getWorkingDirectory(); yield io.mkdirP(workingDirectory); const commands = yield getCommands(compressionMethod, 'extract', archivePath); yield execCommands(commands); }); } exports.extractTar = extractTar; // Create a tar function createTar(archiveFolder, sourceDirectories, compressionMethod) { return __awaiter(this, void 0, void 0, function* () { // Write source directories to manifest.txt to avoid command length limits (0, fs_1.writeFileSync)(path.join(archiveFolder, constants_1.ManifestFilename), sourceDirectories.join('\n')); const commands = yield getCommands(compressionMethod, 'create'); yield execCommands(commands, archiveFolder); }); } exports.createTar = createTar; //# sourceMappingURL=tar.js.map /***/ }), /***/ 76215: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; var desc = Object.getOwnPropertyDescriptor(m, k); if (!desc || ("get" in desc ? !m.__esModule : desc.writable || desc.configurable)) { desc = { enumerable: true, get: function() { return m[k]; } }; } Object.defineProperty(o, k2, desc); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.prototype.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.getDownloadOptions = exports.getUploadOptions = void 0; const core = __importStar(__nccwpck_require__(42186)); /** * Returns a copy of the upload options with defaults filled in. * * @param copy the original upload options */ function getUploadOptions(copy) { const result = { uploadConcurrency: 4, uploadChunkSize: 32 * 1024 * 1024 }; if (copy) { if (typeof copy.uploadConcurrency === 'number') { result.uploadConcurrency = copy.uploadConcurrency; } if (typeof copy.uploadChunkSize === 'number') { result.uploadChunkSize = copy.uploadChunkSize; } } core.debug(`Upload concurrency: ${result.uploadConcurrency}`); core.debug(`Upload chunk size: ${result.uploadChunkSize}`); return result; } exports.getUploadOptions = getUploadOptions; /** * Returns a copy of the download options with defaults filled in. * * @param copy the original download options */ function getDownloadOptions(copy) { const result = { useAzureSdk: false, concurrentBlobDownloads: true, downloadConcurrency: 8, timeoutInMs: 30000, segmentTimeoutInMs: 600000, lookupOnly: false }; if (copy) { if (typeof copy.useAzureSdk === 'boolean') { result.useAzureSdk = copy.useAzureSdk; } if (typeof copy.concurrentBlobDownloads === 'boolean') { result.concurrentBlobDownloads = copy.concurrentBlobDownloads; } if (typeof copy.downloadConcurrency === 'number') { result.downloadConcurrency = copy.downloadConcurrency; } if (typeof copy.timeoutInMs === 'number') { result.timeoutInMs = copy.timeoutInMs; } if (typeof copy.segmentTimeoutInMs === 'number') { result.segmentTimeoutInMs = copy.segmentTimeoutInMs; } if (typeof copy.lookupOnly === 'boolean') { result.lookupOnly = copy.lookupOnly; } } const segmentDownloadTimeoutMins = process.env['SEGMENT_DOWNLOAD_TIMEOUT_MINS']; if (segmentDownloadTimeoutMins && !isNaN(Number(segmentDownloadTimeoutMins)) && isFinite(Number(segmentDownloadTimeoutMins))) { result.segmentTimeoutInMs = Number(segmentDownloadTimeoutMins) * 60 * 1000; } core.debug(`Use Azure SDK: ${result.useAzureSdk}`); core.debug(`Download concurrency: ${result.downloadConcurrency}`); core.debug(`Request timeout (ms): ${result.timeoutInMs}`); core.debug(`Cache segment download timeout mins env var: ${process.env['SEGMENT_DOWNLOAD_TIMEOUT_MINS']}`); core.debug(`Segment download timeout (ms): ${result.segmentTimeoutInMs}`); core.debug(`Lookup only: ${result.lookupOnly}`); return result; } exports.getDownloadOptions = getDownloadOptions; //# sourceMappingURL=options.js.map /***/ }), /***/ 31597: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.create = void 0; const internal_globber_1 = __nccwpck_require__(27341); /** * Constructs a globber * * @param patterns Patterns separated by newlines * @param options Glob options */ function create(patterns, options) { return __awaiter(this, void 0, void 0, function* () { return yield internal_globber_1.DefaultGlobber.create(patterns, options); }); } exports.create = create; //# sourceMappingURL=glob.js.map /***/ }), /***/ 99350: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } }); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.getOptions = void 0; const core = __importStar(__nccwpck_require__(42186)); /** * Returns a copy with defaults filled in. */ function getOptions(copy) { const result = { followSymbolicLinks: true, implicitDescendants: true, omitBrokenSymbolicLinks: true }; if (copy) { if (typeof copy.followSymbolicLinks === 'boolean') { result.followSymbolicLinks = copy.followSymbolicLinks; core.debug(`followSymbolicLinks '${result.followSymbolicLinks}'`); } if (typeof copy.implicitDescendants === 'boolean') { result.implicitDescendants = copy.implicitDescendants; core.debug(`implicitDescendants '${result.implicitDescendants}'`); } if (typeof copy.omitBrokenSymbolicLinks === 'boolean') { result.omitBrokenSymbolicLinks = copy.omitBrokenSymbolicLinks; core.debug(`omitBrokenSymbolicLinks '${result.omitBrokenSymbolicLinks}'`); } } return result; } exports.getOptions = getOptions; //# sourceMappingURL=internal-glob-options-helper.js.map /***/ }), /***/ 27341: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } }); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; var __asyncValues = (this && this.__asyncValues) || function (o) { if (!Symbol.asyncIterator) throw new TypeError("Symbol.asyncIterator is not defined."); var m = o[Symbol.asyncIterator], i; return m ? m.call(o) : (o = typeof __values === "function" ? __values(o) : o[Symbol.iterator](), i = {}, verb("next"), verb("throw"), verb("return"), i[Symbol.asyncIterator] = function () { return this; }, i); function verb(n) { i[n] = o[n] && function (v) { return new Promise(function (resolve, reject) { v = o[n](v), settle(resolve, reject, v.done, v.value); }); }; } function settle(resolve, reject, d, v) { Promise.resolve(v).then(function(v) { resolve({ value: v, done: d }); }, reject); } }; var __await = (this && this.__await) || function (v) { return this instanceof __await ? (this.v = v, this) : new __await(v); } var __asyncGenerator = (this && this.__asyncGenerator) || function (thisArg, _arguments, generator) { if (!Symbol.asyncIterator) throw new TypeError("Symbol.asyncIterator is not defined."); var g = generator.apply(thisArg, _arguments || []), i, q = []; return i = {}, verb("next"), verb("throw"), verb("return"), i[Symbol.asyncIterator] = function () { return this; }, i; function verb(n) { if (g[n]) i[n] = function (v) { return new Promise(function (a, b) { q.push([n, v, a, b]) > 1 || resume(n, v); }); }; } function resume(n, v) { try { step(g[n](v)); } catch (e) { settle(q[0][3], e); } } function step(r) { r.value instanceof __await ? Promise.resolve(r.value.v).then(fulfill, reject) : settle(q[0][2], r); } function fulfill(value) { resume("next", value); } function reject(value) { resume("throw", value); } function settle(f, v) { if (f(v), q.shift(), q.length) resume(q[0][0], q[0][1]); } }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.DefaultGlobber = void 0; const core = __importStar(__nccwpck_require__(42186)); const fs = __importStar(__nccwpck_require__(57147)); const globOptionsHelper = __importStar(__nccwpck_require__(99350)); const path = __importStar(__nccwpck_require__(71017)); const patternHelper = __importStar(__nccwpck_require__(95186)); const internal_match_kind_1 = __nccwpck_require__(80836); const internal_pattern_1 = __nccwpck_require__(35343); const internal_search_state_1 = __nccwpck_require__(28530); const IS_WINDOWS = process.platform === 'win32'; class DefaultGlobber { constructor(options) { this.patterns = []; this.searchPaths = []; this.options = globOptionsHelper.getOptions(options); } getSearchPaths() { // Return a copy return this.searchPaths.slice(); } glob() { var e_1, _a; return __awaiter(this, void 0, void 0, function* () { const result = []; try { for (var _b = __asyncValues(this.globGenerator()), _c; _c = yield _b.next(), !_c.done;) { const itemPath = _c.value; result.push(itemPath); } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) yield _a.call(_b); } finally { if (e_1) throw e_1.error; } } return result; }); } globGenerator() { return __asyncGenerator(this, arguments, function* globGenerator_1() { // Fill in defaults options const options = globOptionsHelper.getOptions(this.options); // Implicit descendants? const patterns = []; for (const pattern of this.patterns) { patterns.push(pattern); if (options.implicitDescendants && (pattern.trailingSeparator || pattern.segments[pattern.segments.length - 1] !== '**')) { patterns.push(new internal_pattern_1.Pattern(pattern.negate, true, pattern.segments.concat('**'))); } } // Push the search paths const stack = []; for (const searchPath of patternHelper.getSearchPaths(patterns)) { core.debug(`Search path '${searchPath}'`); // Exists? try { // Intentionally using lstat. Detection for broken symlink // will be performed later (if following symlinks). yield __await(fs.promises.lstat(searchPath)); } catch (err) { if (err.code === 'ENOENT') { continue; } throw err; } stack.unshift(new internal_search_state_1.SearchState(searchPath, 1)); } // Search const traversalChain = []; // used to detect cycles while (stack.length) { // Pop const item = stack.pop(); // Match? const match = patternHelper.match(patterns, item.path); const partialMatch = !!match || patternHelper.partialMatch(patterns, item.path); if (!match && !partialMatch) { continue; } // Stat const stats = yield __await(DefaultGlobber.stat(item, options, traversalChain) // Broken symlink, or symlink cycle detected, or no longer exists ); // Broken symlink, or symlink cycle detected, or no longer exists if (!stats) { continue; } // Directory if (stats.isDirectory()) { // Matched if (match & internal_match_kind_1.MatchKind.Directory) { yield yield __await(item.path); } // Descend? else if (!partialMatch) { continue; } // Push the child items in reverse const childLevel = item.level + 1; const childItems = (yield __await(fs.promises.readdir(item.path))).map(x => new internal_search_state_1.SearchState(path.join(item.path, x), childLevel)); stack.push(...childItems.reverse()); } // File else if (match & internal_match_kind_1.MatchKind.File) { yield yield __await(item.path); } } }); } /** * Constructs a DefaultGlobber */ static create(patterns, options) { return __awaiter(this, void 0, void 0, function* () { const result = new DefaultGlobber(options); if (IS_WINDOWS) { patterns = patterns.replace(/\r\n/g, '\n'); patterns = patterns.replace(/\r/g, '\n'); } const lines = patterns.split('\n').map(x => x.trim()); for (const line of lines) { // Empty or comment if (!line || line.startsWith('#')) { continue; } // Pattern else { result.patterns.push(new internal_pattern_1.Pattern(line)); } } result.searchPaths.push(...patternHelper.getSearchPaths(result.patterns)); return result; }); } static stat(item, options, traversalChain) { return __awaiter(this, void 0, void 0, function* () { // Note: // `stat` returns info about the target of a symlink (or symlink chain) // `lstat` returns info about a symlink itself let stats; if (options.followSymbolicLinks) { try { // Use `stat` (following symlinks) stats = yield fs.promises.stat(item.path); } catch (err) { if (err.code === 'ENOENT') { if (options.omitBrokenSymbolicLinks) { core.debug(`Broken symlink '${item.path}'`); return undefined; } throw new Error(`No information found for the path '${item.path}'. This may indicate a broken symbolic link.`); } throw err; } } else { // Use `lstat` (not following symlinks) stats = yield fs.promises.lstat(item.path); } // Note, isDirectory() returns false for the lstat of a symlink if (stats.isDirectory() && options.followSymbolicLinks) { // Get the realpath const realPath = yield fs.promises.realpath(item.path); // Fixup the traversal chain to match the item level while (traversalChain.length >= item.level) { traversalChain.pop(); } // Test for a cycle if (traversalChain.some((x) => x === realPath)) { core.debug(`Symlink cycle detected for path '${item.path}' and realpath '${realPath}'`); return undefined; } // Update the traversal chain traversalChain.push(realPath); } return stats; }); } } exports.DefaultGlobber = DefaultGlobber; //# sourceMappingURL=internal-globber.js.map /***/ }), /***/ 80836: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.MatchKind = void 0; /** * Indicates whether a pattern matches a path */ var MatchKind; (function (MatchKind) { /** Not matched */ MatchKind[MatchKind["None"] = 0] = "None"; /** Matched if the path is a directory */ MatchKind[MatchKind["Directory"] = 1] = "Directory"; /** Matched if the path is a regular file */ MatchKind[MatchKind["File"] = 2] = "File"; /** Matched */ MatchKind[MatchKind["All"] = 3] = "All"; })(MatchKind = exports.MatchKind || (exports.MatchKind = {})); //# sourceMappingURL=internal-match-kind.js.map /***/ }), /***/ 20022: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } }); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; var __importDefault = (this && this.__importDefault) || function (mod) { return (mod && mod.__esModule) ? mod : { "default": mod }; }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.safeTrimTrailingSeparator = exports.normalizeSeparators = exports.hasRoot = exports.hasAbsoluteRoot = exports.ensureAbsoluteRoot = exports.dirname = void 0; const path = __importStar(__nccwpck_require__(71017)); const assert_1 = __importDefault(__nccwpck_require__(39491)); const IS_WINDOWS = process.platform === 'win32'; /** * Similar to path.dirname except normalizes the path separators and slightly better handling for Windows UNC paths. * * For example, on Linux/macOS: * - `/ => /` * - `/hello => /` * * For example, on Windows: * - `C:\ => C:\` * - `C:\hello => C:\` * - `C: => C:` * - `C:hello => C:` * - `\ => \` * - `\hello => \` * - `\\hello => \\hello` * - `\\hello\world => \\hello\world` */ function dirname(p) { // Normalize slashes and trim unnecessary trailing slash p = safeTrimTrailingSeparator(p); // Windows UNC root, e.g. \\hello or \\hello\world if (IS_WINDOWS && /^\\\\[^\\]+(\\[^\\]+)?$/.test(p)) { return p; } // Get dirname let result = path.dirname(p); // Trim trailing slash for Windows UNC root, e.g. \\hello\world\ if (IS_WINDOWS && /^\\\\[^\\]+\\[^\\]+\\$/.test(result)) { result = safeTrimTrailingSeparator(result); } return result; } exports.dirname = dirname; /** * Roots the path if not already rooted. On Windows, relative roots like `\` * or `C:` are expanded based on the current working directory. */ function ensureAbsoluteRoot(root, itemPath) { assert_1.default(root, `ensureAbsoluteRoot parameter 'root' must not be empty`); assert_1.default(itemPath, `ensureAbsoluteRoot parameter 'itemPath' must not be empty`); // Already rooted if (hasAbsoluteRoot(itemPath)) { return itemPath; } // Windows if (IS_WINDOWS) { // Check for itemPath like C: or C:foo if (itemPath.match(/^[A-Z]:[^\\/]|^[A-Z]:$/i)) { let cwd = process.cwd(); assert_1.default(cwd.match(/^[A-Z]:\\/i), `Expected current directory to start with an absolute drive root. Actual '${cwd}'`); // Drive letter matches cwd? Expand to cwd if (itemPath[0].toUpperCase() === cwd[0].toUpperCase()) { // Drive only, e.g. C: if (itemPath.length === 2) { // Preserve specified drive letter case (upper or lower) return `${itemPath[0]}:\\${cwd.substr(3)}`; } // Drive + path, e.g. C:foo else { if (!cwd.endsWith('\\')) { cwd += '\\'; } // Preserve specified drive letter case (upper or lower) return `${itemPath[0]}:\\${cwd.substr(3)}${itemPath.substr(2)}`; } } // Different drive else { return `${itemPath[0]}:\\${itemPath.substr(2)}`; } } // Check for itemPath like \ or \foo else if (normalizeSeparators(itemPath).match(/^\\$|^\\[^\\]/)) { const cwd = process.cwd(); assert_1.default(cwd.match(/^[A-Z]:\\/i), `Expected current directory to start with an absolute drive root. Actual '${cwd}'`); return `${cwd[0]}:\\${itemPath.substr(1)}`; } } assert_1.default(hasAbsoluteRoot(root), `ensureAbsoluteRoot parameter 'root' must have an absolute root`); // Otherwise ensure root ends with a separator if (root.endsWith('/') || (IS_WINDOWS && root.endsWith('\\'))) { // Intentionally empty } else { // Append separator root += path.sep; } return root + itemPath; } exports.ensureAbsoluteRoot = ensureAbsoluteRoot; /** * On Linux/macOS, true if path starts with `/`. On Windows, true for paths like: * `\\hello\share` and `C:\hello` (and using alternate separator). */ function hasAbsoluteRoot(itemPath) { assert_1.default(itemPath, `hasAbsoluteRoot parameter 'itemPath' must not be empty`); // Normalize separators itemPath = normalizeSeparators(itemPath); // Windows if (IS_WINDOWS) { // E.g. \\hello\share or C:\hello return itemPath.startsWith('\\\\') || /^[A-Z]:\\/i.test(itemPath); } // E.g. /hello return itemPath.startsWith('/'); } exports.hasAbsoluteRoot = hasAbsoluteRoot; /** * On Linux/macOS, true if path starts with `/`. On Windows, true for paths like: * `\`, `\hello`, `\\hello\share`, `C:`, and `C:\hello` (and using alternate separator). */ function hasRoot(itemPath) { assert_1.default(itemPath, `isRooted parameter 'itemPath' must not be empty`); // Normalize separators itemPath = normalizeSeparators(itemPath); // Windows if (IS_WINDOWS) { // E.g. \ or \hello or \\hello // E.g. C: or C:\hello return itemPath.startsWith('\\') || /^[A-Z]:/i.test(itemPath); } // E.g. /hello return itemPath.startsWith('/'); } exports.hasRoot = hasRoot; /** * Removes redundant slashes and converts `/` to `\` on Windows */ function normalizeSeparators(p) { p = p || ''; // Windows if (IS_WINDOWS) { // Convert slashes on Windows p = p.replace(/\//g, '\\'); // Remove redundant slashes const isUnc = /^\\\\+[^\\]/.test(p); // e.g. \\hello return (isUnc ? '\\' : '') + p.replace(/\\\\+/g, '\\'); // preserve leading \\ for UNC } // Remove redundant slashes return p.replace(/\/\/+/g, '/'); } exports.normalizeSeparators = normalizeSeparators; /** * Normalizes the path separators and trims the trailing separator (when safe). * For example, `/foo/ => /foo` but `/ => /` */ function safeTrimTrailingSeparator(p) { // Short-circuit if empty if (!p) { return ''; } // Normalize separators p = normalizeSeparators(p); // No trailing slash if (!p.endsWith(path.sep)) { return p; } // Check '/' on Linux/macOS and '\' on Windows if (p === path.sep) { return p; } // On Windows check if drive root. E.g. C:\ if (IS_WINDOWS && /^[A-Z]:\\$/i.test(p)) { return p; } // Otherwise trim trailing slash return p.substr(0, p.length - 1); } exports.safeTrimTrailingSeparator = safeTrimTrailingSeparator; //# sourceMappingURL=internal-path-helper.js.map /***/ }), /***/ 19413: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } }); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; var __importDefault = (this && this.__importDefault) || function (mod) { return (mod && mod.__esModule) ? mod : { "default": mod }; }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.Path = void 0; const path = __importStar(__nccwpck_require__(71017)); const pathHelper = __importStar(__nccwpck_require__(20022)); const assert_1 = __importDefault(__nccwpck_require__(39491)); const IS_WINDOWS = process.platform === 'win32'; /** * Helper class for parsing paths into segments */ class Path { /** * Constructs a Path * @param itemPath Path or array of segments */ constructor(itemPath) { this.segments = []; // String if (typeof itemPath === 'string') { assert_1.default(itemPath, `Parameter 'itemPath' must not be empty`); // Normalize slashes and trim unnecessary trailing slash itemPath = pathHelper.safeTrimTrailingSeparator(itemPath); // Not rooted if (!pathHelper.hasRoot(itemPath)) { this.segments = itemPath.split(path.sep); } // Rooted else { // Add all segments, while not at the root let remaining = itemPath; let dir = pathHelper.dirname(remaining); while (dir !== remaining) { // Add the segment const basename = path.basename(remaining); this.segments.unshift(basename); // Truncate the last segment remaining = dir; dir = pathHelper.dirname(remaining); } // Remainder is the root this.segments.unshift(remaining); } } // Array else { // Must not be empty assert_1.default(itemPath.length > 0, `Parameter 'itemPath' must not be an empty array`); // Each segment for (let i = 0; i < itemPath.length; i++) { let segment = itemPath[i]; // Must not be empty assert_1.default(segment, `Parameter 'itemPath' must not contain any empty segments`); // Normalize slashes segment = pathHelper.normalizeSeparators(itemPath[i]); // Root segment if (i === 0 && pathHelper.hasRoot(segment)) { segment = pathHelper.safeTrimTrailingSeparator(segment); assert_1.default(segment === pathHelper.dirname(segment), `Parameter 'itemPath' root segment contains information for multiple segments`); this.segments.push(segment); } // All other segments else { // Must not contain slash assert_1.default(!segment.includes(path.sep), `Parameter 'itemPath' contains unexpected path separators`); this.segments.push(segment); } } } } /** * Converts the path to it's string representation */ toString() { // First segment let result = this.segments[0]; // All others let skipSlash = result.endsWith(path.sep) || (IS_WINDOWS && /^[A-Z]:$/i.test(result)); for (let i = 1; i < this.segments.length; i++) { if (skipSlash) { skipSlash = false; } else { result += path.sep; } result += this.segments[i]; } return result; } } exports.Path = Path; //# sourceMappingURL=internal-path.js.map /***/ }), /***/ 95186: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } }); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.partialMatch = exports.match = exports.getSearchPaths = void 0; const pathHelper = __importStar(__nccwpck_require__(20022)); const internal_match_kind_1 = __nccwpck_require__(80836); const IS_WINDOWS = process.platform === 'win32'; /** * Given an array of patterns, returns an array of paths to search. * Duplicates and paths under other included paths are filtered out. */ function getSearchPaths(patterns) { // Ignore negate patterns patterns = patterns.filter(x => !x.negate); // Create a map of all search paths const searchPathMap = {}; for (const pattern of patterns) { const key = IS_WINDOWS ? pattern.searchPath.toUpperCase() : pattern.searchPath; searchPathMap[key] = 'candidate'; } const result = []; for (const pattern of patterns) { // Check if already included const key = IS_WINDOWS ? pattern.searchPath.toUpperCase() : pattern.searchPath; if (searchPathMap[key] === 'included') { continue; } // Check for an ancestor search path let foundAncestor = false; let tempKey = key; let parent = pathHelper.dirname(tempKey); while (parent !== tempKey) { if (searchPathMap[parent]) { foundAncestor = true; break; } tempKey = parent; parent = pathHelper.dirname(tempKey); } // Include the search pattern in the result if (!foundAncestor) { result.push(pattern.searchPath); searchPathMap[key] = 'included'; } } return result; } exports.getSearchPaths = getSearchPaths; /** * Matches the patterns against the path */ function match(patterns, itemPath) { let result = internal_match_kind_1.MatchKind.None; for (const pattern of patterns) { if (pattern.negate) { result &= ~pattern.match(itemPath); } else { result |= pattern.match(itemPath); } } return result; } exports.match = match; /** * Checks whether to descend further into the directory */ function partialMatch(patterns, itemPath) { return patterns.some(x => !x.negate && x.partialMatch(itemPath)); } exports.partialMatch = partialMatch; //# sourceMappingURL=internal-pattern-helper.js.map /***/ }), /***/ 35343: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } }); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; var __importDefault = (this && this.__importDefault) || function (mod) { return (mod && mod.__esModule) ? mod : { "default": mod }; }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.Pattern = void 0; const os = __importStar(__nccwpck_require__(22037)); const path = __importStar(__nccwpck_require__(71017)); const pathHelper = __importStar(__nccwpck_require__(20022)); const assert_1 = __importDefault(__nccwpck_require__(39491)); const minimatch_1 = __nccwpck_require__(83973); const internal_match_kind_1 = __nccwpck_require__(80836); const internal_path_1 = __nccwpck_require__(19413); const IS_WINDOWS = process.platform === 'win32'; class Pattern { constructor(patternOrNegate, isImplicitPattern = false, segments, homedir) { /** * Indicates whether matches should be excluded from the result set */ this.negate = false; // Pattern overload let pattern; if (typeof patternOrNegate === 'string') { pattern = patternOrNegate.trim(); } // Segments overload else { // Convert to pattern segments = segments || []; assert_1.default(segments.length, `Parameter 'segments' must not empty`); const root = Pattern.getLiteral(segments[0]); assert_1.default(root && pathHelper.hasAbsoluteRoot(root), `Parameter 'segments' first element must be a root path`); pattern = new internal_path_1.Path(segments).toString().trim(); if (patternOrNegate) { pattern = `!${pattern}`; } } // Negate while (pattern.startsWith('!')) { this.negate = !this.negate; pattern = pattern.substr(1).trim(); } // Normalize slashes and ensures absolute root pattern = Pattern.fixupPattern(pattern, homedir); // Segments this.segments = new internal_path_1.Path(pattern).segments; // Trailing slash indicates the pattern should only match directories, not regular files this.trailingSeparator = pathHelper .normalizeSeparators(pattern) .endsWith(path.sep); pattern = pathHelper.safeTrimTrailingSeparator(pattern); // Search path (literal path prior to the first glob segment) let foundGlob = false; const searchSegments = this.segments .map(x => Pattern.getLiteral(x)) .filter(x => !foundGlob && !(foundGlob = x === '')); this.searchPath = new internal_path_1.Path(searchSegments).toString(); // Root RegExp (required when determining partial match) this.rootRegExp = new RegExp(Pattern.regExpEscape(searchSegments[0]), IS_WINDOWS ? 'i' : ''); this.isImplicitPattern = isImplicitPattern; // Create minimatch const minimatchOptions = { dot: true, nobrace: true, nocase: IS_WINDOWS, nocomment: true, noext: true, nonegate: true }; pattern = IS_WINDOWS ? pattern.replace(/\\/g, '/') : pattern; this.minimatch = new minimatch_1.Minimatch(pattern, minimatchOptions); } /** * Matches the pattern against the specified path */ match(itemPath) { // Last segment is globstar? if (this.segments[this.segments.length - 1] === '**') { // Normalize slashes itemPath = pathHelper.normalizeSeparators(itemPath); // Append a trailing slash. Otherwise Minimatch will not match the directory immediately // preceding the globstar. For example, given the pattern `/foo/**`, Minimatch returns // false for `/foo` but returns true for `/foo/`. Append a trailing slash to handle that quirk. if (!itemPath.endsWith(path.sep) && this.isImplicitPattern === false) { // Note, this is safe because the constructor ensures the pattern has an absolute root. // For example, formats like C: and C:foo on Windows are resolved to an absolute root. itemPath = `${itemPath}${path.sep}`; } } else { // Normalize slashes and trim unnecessary trailing slash itemPath = pathHelper.safeTrimTrailingSeparator(itemPath); } // Match if (this.minimatch.match(itemPath)) { return this.trailingSeparator ? internal_match_kind_1.MatchKind.Directory : internal_match_kind_1.MatchKind.All; } return internal_match_kind_1.MatchKind.None; } /** * Indicates whether the pattern may match descendants of the specified path */ partialMatch(itemPath) { // Normalize slashes and trim unnecessary trailing slash itemPath = pathHelper.safeTrimTrailingSeparator(itemPath); // matchOne does not handle root path correctly if (pathHelper.dirname(itemPath) === itemPath) { return this.rootRegExp.test(itemPath); } return this.minimatch.matchOne(itemPath.split(IS_WINDOWS ? /\\+/ : /\/+/), this.minimatch.set[0], true); } /** * Escapes glob patterns within a path */ static globEscape(s) { return (IS_WINDOWS ? s : s.replace(/\\/g, '\\\\')) // escape '\' on Linux/macOS .replace(/(\[)(?=[^/]+\])/g, '[[]') // escape '[' when ']' follows within the path segment .replace(/\?/g, '[?]') // escape '?' .replace(/\*/g, '[*]'); // escape '*' } /** * Normalizes slashes and ensures absolute root */ static fixupPattern(pattern, homedir) { // Empty assert_1.default(pattern, 'pattern cannot be empty'); // Must not contain `.` segment, unless first segment // Must not contain `..` segment const literalSegments = new internal_path_1.Path(pattern).segments.map(x => Pattern.getLiteral(x)); assert_1.default(literalSegments.every((x, i) => (x !== '.' || i === 0) && x !== '..'), `Invalid pattern '${pattern}'. Relative pathing '.' and '..' is not allowed.`); // Must not contain globs in root, e.g. Windows UNC path \\foo\b*r assert_1.default(!pathHelper.hasRoot(pattern) || literalSegments[0], `Invalid pattern '${pattern}'. Root segment must not contain globs.`); // Normalize slashes pattern = pathHelper.normalizeSeparators(pattern); // Replace leading `.` segment if (pattern === '.' || pattern.startsWith(`.${path.sep}`)) { pattern = Pattern.globEscape(process.cwd()) + pattern.substr(1); } // Replace leading `~` segment else if (pattern === '~' || pattern.startsWith(`~${path.sep}`)) { homedir = homedir || os.homedir(); assert_1.default(homedir, 'Unable to determine HOME directory'); assert_1.default(pathHelper.hasAbsoluteRoot(homedir), `Expected HOME directory to be a rooted path. Actual '${homedir}'`); pattern = Pattern.globEscape(homedir) + pattern.substr(1); } // Replace relative drive root, e.g. pattern is C: or C:foo else if (IS_WINDOWS && (pattern.match(/^[A-Z]:$/i) || pattern.match(/^[A-Z]:[^\\]/i))) { let root = pathHelper.ensureAbsoluteRoot('C:\\dummy-root', pattern.substr(0, 2)); if (pattern.length > 2 && !root.endsWith('\\')) { root += '\\'; } pattern = Pattern.globEscape(root) + pattern.substr(2); } // Replace relative root, e.g. pattern is \ or \foo else if (IS_WINDOWS && (pattern === '\\' || pattern.match(/^\\[^\\]/))) { let root = pathHelper.ensureAbsoluteRoot('C:\\dummy-root', '\\'); if (!root.endsWith('\\')) { root += '\\'; } pattern = Pattern.globEscape(root) + pattern.substr(1); } // Otherwise ensure absolute root else { pattern = pathHelper.ensureAbsoluteRoot(Pattern.globEscape(process.cwd()), pattern); } return pathHelper.normalizeSeparators(pattern); } /** * Attempts to unescape a pattern segment to create a literal path segment. * Otherwise returns empty string. */ static getLiteral(segment) { let literal = ''; for (let i = 0; i < segment.length; i++) { const c = segment[i]; // Escape if (c === '\\' && !IS_WINDOWS && i + 1 < segment.length) { literal += segment[++i]; continue; } // Wildcard else if (c === '*' || c === '?') { return ''; } // Character set else if (c === '[' && i + 1 < segment.length) { let set = ''; let closed = -1; for (let i2 = i + 1; i2 < segment.length; i2++) { const c2 = segment[i2]; // Escape if (c2 === '\\' && !IS_WINDOWS && i2 + 1 < segment.length) { set += segment[++i2]; continue; } // Closed else if (c2 === ']') { closed = i2; break; } // Otherwise else { set += c2; } } // Closed? if (closed >= 0) { // Cannot convert if (set.length > 1) { return ''; } // Convert to literal if (set) { literal += set; i = closed; continue; } } // Otherwise fall thru } // Append literal += c; } return literal; } /** * Escapes regexp special characters * https://javascript.info/regexp-escaping */ static regExpEscape(s) { return s.replace(/[[\\^$.|?*+()]/g, '\\$&'); } } exports.Pattern = Pattern; //# sourceMappingURL=internal-pattern.js.map /***/ }), /***/ 28530: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.SearchState = void 0; class SearchState { constructor(path, level) { this.path = path; this.level = level; } } exports.SearchState = SearchState; //# sourceMappingURL=internal-search-state.js.map /***/ }), /***/ 32001: /***/ (function(__unused_webpack_module, exports) { "use strict"; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.PersonalAccessTokenCredentialHandler = exports.BearerCredentialHandler = exports.BasicCredentialHandler = void 0; class BasicCredentialHandler { constructor(username, password) { this.username = username; this.password = password; } prepareRequest(options) { if (!options.headers) { throw Error('The request has no headers'); } options.headers['Authorization'] = `Basic ${Buffer.from(`${this.username}:${this.password}`).toString('base64')}`; } // This handler cannot handle 401 canHandleAuthentication() { return false; } handleAuthentication() { return __awaiter(this, void 0, void 0, function* () { throw new Error('not implemented'); }); } } exports.BasicCredentialHandler = BasicCredentialHandler; class BearerCredentialHandler { constructor(token) { this.token = token; } // currently implements pre-authorization // TODO: support preAuth = false where it hooks on 401 prepareRequest(options) { if (!options.headers) { throw Error('The request has no headers'); } options.headers['Authorization'] = `Bearer ${this.token}`; } // This handler cannot handle 401 canHandleAuthentication() { return false; } handleAuthentication() { return __awaiter(this, void 0, void 0, function* () { throw new Error('not implemented'); }); } } exports.BearerCredentialHandler = BearerCredentialHandler; class PersonalAccessTokenCredentialHandler { constructor(token) { this.token = token; } // currently implements pre-authorization // TODO: support preAuth = false where it hooks on 401 prepareRequest(options) { if (!options.headers) { throw Error('The request has no headers'); } options.headers['Authorization'] = `Basic ${Buffer.from(`PAT:${this.token}`).toString('base64')}`; } // This handler cannot handle 401 canHandleAuthentication() { return false; } handleAuthentication() { return __awaiter(this, void 0, void 0, function* () { throw new Error('not implemented'); }); } } exports.PersonalAccessTokenCredentialHandler = PersonalAccessTokenCredentialHandler; //# sourceMappingURL=auth.js.map /***/ }), /***/ 21825: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; /* eslint-disable @typescript-eslint/no-explicit-any */ var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; var desc = Object.getOwnPropertyDescriptor(m, k); if (!desc || ("get" in desc ? !m.__esModule : desc.writable || desc.configurable)) { desc = { enumerable: true, get: function() { return m[k]; } }; } Object.defineProperty(o, k2, desc); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.prototype.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.HttpClient = exports.isHttps = exports.HttpClientResponse = exports.HttpClientError = exports.getProxyUrl = exports.MediaTypes = exports.Headers = exports.HttpCodes = void 0; const http = __importStar(__nccwpck_require__(13685)); const https = __importStar(__nccwpck_require__(95687)); const pm = __importStar(__nccwpck_require__(4977)); const tunnel = __importStar(__nccwpck_require__(74294)); const undici_1 = __nccwpck_require__(41773); var HttpCodes; (function (HttpCodes) { HttpCodes[HttpCodes["OK"] = 200] = "OK"; HttpCodes[HttpCodes["MultipleChoices"] = 300] = "MultipleChoices"; HttpCodes[HttpCodes["MovedPermanently"] = 301] = "MovedPermanently"; HttpCodes[HttpCodes["ResourceMoved"] = 302] = "ResourceMoved"; HttpCodes[HttpCodes["SeeOther"] = 303] = "SeeOther"; HttpCodes[HttpCodes["NotModified"] = 304] = "NotModified"; HttpCodes[HttpCodes["UseProxy"] = 305] = "UseProxy"; HttpCodes[HttpCodes["SwitchProxy"] = 306] = "SwitchProxy"; HttpCodes[HttpCodes["TemporaryRedirect"] = 307] = "TemporaryRedirect"; HttpCodes[HttpCodes["PermanentRedirect"] = 308] = "PermanentRedirect"; HttpCodes[HttpCodes["BadRequest"] = 400] = "BadRequest"; HttpCodes[HttpCodes["Unauthorized"] = 401] = "Unauthorized"; HttpCodes[HttpCodes["PaymentRequired"] = 402] = "PaymentRequired"; HttpCodes[HttpCodes["Forbidden"] = 403] = "Forbidden"; HttpCodes[HttpCodes["NotFound"] = 404] = "NotFound"; HttpCodes[HttpCodes["MethodNotAllowed"] = 405] = "MethodNotAllowed"; HttpCodes[HttpCodes["NotAcceptable"] = 406] = "NotAcceptable"; HttpCodes[HttpCodes["ProxyAuthenticationRequired"] = 407] = "ProxyAuthenticationRequired"; HttpCodes[HttpCodes["RequestTimeout"] = 408] = "RequestTimeout"; HttpCodes[HttpCodes["Conflict"] = 409] = "Conflict"; HttpCodes[HttpCodes["Gone"] = 410] = "Gone"; HttpCodes[HttpCodes["TooManyRequests"] = 429] = "TooManyRequests"; HttpCodes[HttpCodes["InternalServerError"] = 500] = "InternalServerError"; HttpCodes[HttpCodes["NotImplemented"] = 501] = "NotImplemented"; HttpCodes[HttpCodes["BadGateway"] = 502] = "BadGateway"; HttpCodes[HttpCodes["ServiceUnavailable"] = 503] = "ServiceUnavailable"; HttpCodes[HttpCodes["GatewayTimeout"] = 504] = "GatewayTimeout"; })(HttpCodes || (exports.HttpCodes = HttpCodes = {})); var Headers; (function (Headers) { Headers["Accept"] = "accept"; Headers["ContentType"] = "content-type"; })(Headers || (exports.Headers = Headers = {})); var MediaTypes; (function (MediaTypes) { MediaTypes["ApplicationJson"] = "application/json"; })(MediaTypes || (exports.MediaTypes = MediaTypes = {})); /** * Returns the proxy URL, depending upon the supplied url and proxy environment variables. * @param serverUrl The server URL where the request will be sent. For example, https://api.github.com */ function getProxyUrl(serverUrl) { const proxyUrl = pm.getProxyUrl(new URL(serverUrl)); return proxyUrl ? proxyUrl.href : ''; } exports.getProxyUrl = getProxyUrl; const HttpRedirectCodes = [ HttpCodes.MovedPermanently, HttpCodes.ResourceMoved, HttpCodes.SeeOther, HttpCodes.TemporaryRedirect, HttpCodes.PermanentRedirect ]; const HttpResponseRetryCodes = [ HttpCodes.BadGateway, HttpCodes.ServiceUnavailable, HttpCodes.GatewayTimeout ]; const RetryableHttpVerbs = ['OPTIONS', 'GET', 'DELETE', 'HEAD']; const ExponentialBackoffCeiling = 10; const ExponentialBackoffTimeSlice = 5; class HttpClientError extends Error { constructor(message, statusCode) { super(message); this.name = 'HttpClientError'; this.statusCode = statusCode; Object.setPrototypeOf(this, HttpClientError.prototype); } } exports.HttpClientError = HttpClientError; class HttpClientResponse { constructor(message) { this.message = message; } readBody() { return __awaiter(this, void 0, void 0, function* () { return new Promise((resolve) => __awaiter(this, void 0, void 0, function* () { let output = Buffer.alloc(0); this.message.on('data', (chunk) => { output = Buffer.concat([output, chunk]); }); this.message.on('end', () => { resolve(output.toString()); }); })); }); } readBodyBuffer() { return __awaiter(this, void 0, void 0, function* () { return new Promise((resolve) => __awaiter(this, void 0, void 0, function* () { const chunks = []; this.message.on('data', (chunk) => { chunks.push(chunk); }); this.message.on('end', () => { resolve(Buffer.concat(chunks)); }); })); }); } } exports.HttpClientResponse = HttpClientResponse; function isHttps(requestUrl) { const parsedUrl = new URL(requestUrl); return parsedUrl.protocol === 'https:'; } exports.isHttps = isHttps; class HttpClient { constructor(userAgent, handlers, requestOptions) { this._ignoreSslError = false; this._allowRedirects = true; this._allowRedirectDowngrade = false; this._maxRedirects = 50; this._allowRetries = false; this._maxRetries = 1; this._keepAlive = false; this._disposed = false; this.userAgent = userAgent; this.handlers = handlers || []; this.requestOptions = requestOptions; if (requestOptions) { if (requestOptions.ignoreSslError != null) { this._ignoreSslError = requestOptions.ignoreSslError; } this._socketTimeout = requestOptions.socketTimeout; if (requestOptions.allowRedirects != null) { this._allowRedirects = requestOptions.allowRedirects; } if (requestOptions.allowRedirectDowngrade != null) { this._allowRedirectDowngrade = requestOptions.allowRedirectDowngrade; } if (requestOptions.maxRedirects != null) { this._maxRedirects = Math.max(requestOptions.maxRedirects, 0); } if (requestOptions.keepAlive != null) { this._keepAlive = requestOptions.keepAlive; } if (requestOptions.allowRetries != null) { this._allowRetries = requestOptions.allowRetries; } if (requestOptions.maxRetries != null) { this._maxRetries = requestOptions.maxRetries; } } } options(requestUrl, additionalHeaders) { return __awaiter(this, void 0, void 0, function* () { return this.request('OPTIONS', requestUrl, null, additionalHeaders || {}); }); } get(requestUrl, additionalHeaders) { return __awaiter(this, void 0, void 0, function* () { return this.request('GET', requestUrl, null, additionalHeaders || {}); }); } del(requestUrl, additionalHeaders) { return __awaiter(this, void 0, void 0, function* () { return this.request('DELETE', requestUrl, null, additionalHeaders || {}); }); } post(requestUrl, data, additionalHeaders) { return __awaiter(this, void 0, void 0, function* () { return this.request('POST', requestUrl, data, additionalHeaders || {}); }); } patch(requestUrl, data, additionalHeaders) { return __awaiter(this, void 0, void 0, function* () { return this.request('PATCH', requestUrl, data, additionalHeaders || {}); }); } put(requestUrl, data, additionalHeaders) { return __awaiter(this, void 0, void 0, function* () { return this.request('PUT', requestUrl, data, additionalHeaders || {}); }); } head(requestUrl, additionalHeaders) { return __awaiter(this, void 0, void 0, function* () { return this.request('HEAD', requestUrl, null, additionalHeaders || {}); }); } sendStream(verb, requestUrl, stream, additionalHeaders) { return __awaiter(this, void 0, void 0, function* () { return this.request(verb, requestUrl, stream, additionalHeaders); }); } /** * Gets a typed object from an endpoint * Be aware that not found returns a null. Other errors (4xx, 5xx) reject the promise */ getJson(requestUrl, additionalHeaders = {}) { return __awaiter(this, void 0, void 0, function* () { additionalHeaders[Headers.Accept] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.Accept, MediaTypes.ApplicationJson); const res = yield this.get(requestUrl, additionalHeaders); return this._processResponse(res, this.requestOptions); }); } postJson(requestUrl, obj, additionalHeaders = {}) { return __awaiter(this, void 0, void 0, function* () { const data = JSON.stringify(obj, null, 2); additionalHeaders[Headers.Accept] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.Accept, MediaTypes.ApplicationJson); additionalHeaders[Headers.ContentType] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.ContentType, MediaTypes.ApplicationJson); const res = yield this.post(requestUrl, data, additionalHeaders); return this._processResponse(res, this.requestOptions); }); } putJson(requestUrl, obj, additionalHeaders = {}) { return __awaiter(this, void 0, void 0, function* () { const data = JSON.stringify(obj, null, 2); additionalHeaders[Headers.Accept] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.Accept, MediaTypes.ApplicationJson); additionalHeaders[Headers.ContentType] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.ContentType, MediaTypes.ApplicationJson); const res = yield this.put(requestUrl, data, additionalHeaders); return this._processResponse(res, this.requestOptions); }); } patchJson(requestUrl, obj, additionalHeaders = {}) { return __awaiter(this, void 0, void 0, function* () { const data = JSON.stringify(obj, null, 2); additionalHeaders[Headers.Accept] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.Accept, MediaTypes.ApplicationJson); additionalHeaders[Headers.ContentType] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.ContentType, MediaTypes.ApplicationJson); const res = yield this.patch(requestUrl, data, additionalHeaders); return this._processResponse(res, this.requestOptions); }); } /** * Makes a raw http request. * All other methods such as get, post, patch, and request ultimately call this. * Prefer get, del, post and patch */ request(verb, requestUrl, data, headers) { return __awaiter(this, void 0, void 0, function* () { if (this._disposed) { throw new Error('Client has already been disposed.'); } const parsedUrl = new URL(requestUrl); let info = this._prepareRequest(verb, parsedUrl, headers); // Only perform retries on reads since writes may not be idempotent. const maxTries = this._allowRetries && RetryableHttpVerbs.includes(verb) ? this._maxRetries + 1 : 1; let numTries = 0; let response; do { response = yield this.requestRaw(info, data); // Check if it's an authentication challenge if (response && response.message && response.message.statusCode === HttpCodes.Unauthorized) { let authenticationHandler; for (const handler of this.handlers) { if (handler.canHandleAuthentication(response)) { authenticationHandler = handler; break; } } if (authenticationHandler) { return authenticationHandler.handleAuthentication(this, info, data); } else { // We have received an unauthorized response but have no handlers to handle it. // Let the response return to the caller. return response; } } let redirectsRemaining = this._maxRedirects; while (response.message.statusCode && HttpRedirectCodes.includes(response.message.statusCode) && this._allowRedirects && redirectsRemaining > 0) { const redirectUrl = response.message.headers['location']; if (!redirectUrl) { // if there's no location to redirect to, we won't break; } const parsedRedirectUrl = new URL(redirectUrl); if (parsedUrl.protocol === 'https:' && parsedUrl.protocol !== parsedRedirectUrl.protocol && !this._allowRedirectDowngrade) { throw new Error('Redirect from HTTPS to HTTP protocol. This downgrade is not allowed for security reasons. If you want to allow this behavior, set the allowRedirectDowngrade option to true.'); } // we need to finish reading the response before reassigning response // which will leak the open socket. yield response.readBody(); // strip authorization header if redirected to a different hostname if (parsedRedirectUrl.hostname !== parsedUrl.hostname) { for (const header in headers) { // header names are case insensitive if (header.toLowerCase() === 'authorization') { delete headers[header]; } } } // let's make the request with the new redirectUrl info = this._prepareRequest(verb, parsedRedirectUrl, headers); response = yield this.requestRaw(info, data); redirectsRemaining--; } if (!response.message.statusCode || !HttpResponseRetryCodes.includes(response.message.statusCode)) { // If not a retry code, return immediately instead of retrying return response; } numTries += 1; if (numTries < maxTries) { yield response.readBody(); yield this._performExponentialBackoff(numTries); } } while (numTries < maxTries); return response; }); } /** * Needs to be called if keepAlive is set to true in request options. */ dispose() { if (this._agent) { this._agent.destroy(); } this._disposed = true; } /** * Raw request. * @param info * @param data */ requestRaw(info, data) { return __awaiter(this, void 0, void 0, function* () { return new Promise((resolve, reject) => { function callbackForResult(err, res) { if (err) { reject(err); } else if (!res) { // If `err` is not passed, then `res` must be passed. reject(new Error('Unknown error')); } else { resolve(res); } } this.requestRawWithCallback(info, data, callbackForResult); }); }); } /** * Raw request with callback. * @param info * @param data * @param onResult */ requestRawWithCallback(info, data, onResult) { if (typeof data === 'string') { if (!info.options.headers) { info.options.headers = {}; } info.options.headers['Content-Length'] = Buffer.byteLength(data, 'utf8'); } let callbackCalled = false; function handleResult(err, res) { if (!callbackCalled) { callbackCalled = true; onResult(err, res); } } const req = info.httpModule.request(info.options, (msg) => { const res = new HttpClientResponse(msg); handleResult(undefined, res); }); let socket; req.on('socket', sock => { socket = sock; }); // If we ever get disconnected, we want the socket to timeout eventually req.setTimeout(this._socketTimeout || 3 * 60000, () => { if (socket) { socket.end(); } handleResult(new Error(`Request timeout: ${info.options.path}`)); }); req.on('error', function (err) { // err has statusCode property // res should have headers handleResult(err); }); if (data && typeof data === 'string') { req.write(data, 'utf8'); } if (data && typeof data !== 'string') { data.on('close', function () { req.end(); }); data.pipe(req); } else { req.end(); } } /** * Gets an http agent. This function is useful when you need an http agent that handles * routing through a proxy server - depending upon the url and proxy environment variables. * @param serverUrl The server URL where the request will be sent. For example, https://api.github.com */ getAgent(serverUrl) { const parsedUrl = new URL(serverUrl); return this._getAgent(parsedUrl); } getAgentDispatcher(serverUrl) { const parsedUrl = new URL(serverUrl); const proxyUrl = pm.getProxyUrl(parsedUrl); const useProxy = proxyUrl && proxyUrl.hostname; if (!useProxy) { return; } return this._getProxyAgentDispatcher(parsedUrl, proxyUrl); } _prepareRequest(method, requestUrl, headers) { const info = {}; info.parsedUrl = requestUrl; const usingSsl = info.parsedUrl.protocol === 'https:'; info.httpModule = usingSsl ? https : http; const defaultPort = usingSsl ? 443 : 80; info.options = {}; info.options.host = info.parsedUrl.hostname; info.options.port = info.parsedUrl.port ? parseInt(info.parsedUrl.port) : defaultPort; info.options.path = (info.parsedUrl.pathname || '') + (info.parsedUrl.search || ''); info.options.method = method; info.options.headers = this._mergeHeaders(headers); if (this.userAgent != null) { info.options.headers['user-agent'] = this.userAgent; } info.options.agent = this._getAgent(info.parsedUrl); // gives handlers an opportunity to participate if (this.handlers) { for (const handler of this.handlers) { handler.prepareRequest(info.options); } } return info; } _mergeHeaders(headers) { if (this.requestOptions && this.requestOptions.headers) { return Object.assign({}, lowercaseKeys(this.requestOptions.headers), lowercaseKeys(headers || {})); } return lowercaseKeys(headers || {}); } _getExistingOrDefaultHeader(additionalHeaders, header, _default) { let clientHeader; if (this.requestOptions && this.requestOptions.headers) { clientHeader = lowercaseKeys(this.requestOptions.headers)[header]; } return additionalHeaders[header] || clientHeader || _default; } _getAgent(parsedUrl) { let agent; const proxyUrl = pm.getProxyUrl(parsedUrl); const useProxy = proxyUrl && proxyUrl.hostname; if (this._keepAlive && useProxy) { agent = this._proxyAgent; } if (this._keepAlive && !useProxy) { agent = this._agent; } // if agent is already assigned use that agent. if (agent) { return agent; } const usingSsl = parsedUrl.protocol === 'https:'; let maxSockets = 100; if (this.requestOptions) { maxSockets = this.requestOptions.maxSockets || http.globalAgent.maxSockets; } // This is `useProxy` again, but we need to check `proxyURl` directly for TypeScripts's flow analysis. if (proxyUrl && proxyUrl.hostname) { const agentOptions = { maxSockets, keepAlive: this._keepAlive, proxy: Object.assign(Object.assign({}, ((proxyUrl.username || proxyUrl.password) && { proxyAuth: `${proxyUrl.username}:${proxyUrl.password}` })), { host: proxyUrl.hostname, port: proxyUrl.port }) }; let tunnelAgent; const overHttps = proxyUrl.protocol === 'https:'; if (usingSsl) { tunnelAgent = overHttps ? tunnel.httpsOverHttps : tunnel.httpsOverHttp; } else { tunnelAgent = overHttps ? tunnel.httpOverHttps : tunnel.httpOverHttp; } agent = tunnelAgent(agentOptions); this._proxyAgent = agent; } // if reusing agent across request and tunneling agent isn't assigned create a new agent if (this._keepAlive && !agent) { const options = { keepAlive: this._keepAlive, maxSockets }; agent = usingSsl ? new https.Agent(options) : new http.Agent(options); this._agent = agent; } // if not using private agent and tunnel agent isn't setup then use global agent if (!agent) { agent = usingSsl ? https.globalAgent : http.globalAgent; } if (usingSsl && this._ignoreSslError) { // we don't want to set NODE_TLS_REJECT_UNAUTHORIZED=0 since that will affect request for entire process // http.RequestOptions doesn't expose a way to modify RequestOptions.agent.options // we have to cast it to any and change it directly agent.options = Object.assign(agent.options || {}, { rejectUnauthorized: false }); } return agent; } _getProxyAgentDispatcher(parsedUrl, proxyUrl) { let proxyAgent; if (this._keepAlive) { proxyAgent = this._proxyAgentDispatcher; } // if agent is already assigned use that agent. if (proxyAgent) { return proxyAgent; } const usingSsl = parsedUrl.protocol === 'https:'; proxyAgent = new undici_1.ProxyAgent(Object.assign({ uri: proxyUrl.href, pipelining: !this._keepAlive ? 0 : 1 }, ((proxyUrl.username || proxyUrl.password) && { token: `${proxyUrl.username}:${proxyUrl.password}` }))); this._proxyAgentDispatcher = proxyAgent; if (usingSsl && this._ignoreSslError) { // we don't want to set NODE_TLS_REJECT_UNAUTHORIZED=0 since that will affect request for entire process // http.RequestOptions doesn't expose a way to modify RequestOptions.agent.options // we have to cast it to any and change it directly proxyAgent.options = Object.assign(proxyAgent.options.requestTls || {}, { rejectUnauthorized: false }); } return proxyAgent; } _performExponentialBackoff(retryNumber) { return __awaiter(this, void 0, void 0, function* () { retryNumber = Math.min(ExponentialBackoffCeiling, retryNumber); const ms = ExponentialBackoffTimeSlice * Math.pow(2, retryNumber); return new Promise(resolve => setTimeout(() => resolve(), ms)); }); } _processResponse(res, options) { return __awaiter(this, void 0, void 0, function* () { return new Promise((resolve, reject) => __awaiter(this, void 0, void 0, function* () { const statusCode = res.message.statusCode || 0; const response = { statusCode, result: null, headers: {} }; // not found leads to null obj returned if (statusCode === HttpCodes.NotFound) { resolve(response); } // get the result from the body function dateTimeDeserializer(key, value) { if (typeof value === 'string') { const a = new Date(value); if (!isNaN(a.valueOf())) { return a; } } return value; } let obj; let contents; try { contents = yield res.readBody(); if (contents && contents.length > 0) { if (options && options.deserializeDates) { obj = JSON.parse(contents, dateTimeDeserializer); } else { obj = JSON.parse(contents); } response.result = obj; } response.headers = res.message.headers; } catch (err) { // Invalid resource (contents not json); leaving result obj null } // note that 3xx redirects are handled by the http layer. if (statusCode > 299) { let msg; // if exception/error in body, attempt to get better error if (obj && obj.message) { msg = obj.message; } else if (contents && contents.length > 0) { // it may be the case that the exception is in the body message as string msg = contents; } else { msg = `Failed request: (${statusCode})`; } const err = new HttpClientError(msg, statusCode); err.result = response.result; reject(err); } else { resolve(response); } })); }); } } exports.HttpClient = HttpClient; const lowercaseKeys = (obj) => Object.keys(obj).reduce((c, k) => ((c[k.toLowerCase()] = obj[k]), c), {}); //# sourceMappingURL=index.js.map /***/ }), /***/ 4977: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.checkBypass = exports.getProxyUrl = void 0; function getProxyUrl(reqUrl) { const usingSsl = reqUrl.protocol === 'https:'; if (checkBypass(reqUrl)) { return undefined; } const proxyVar = (() => { if (usingSsl) { return process.env['https_proxy'] || process.env['HTTPS_PROXY']; } else { return process.env['http_proxy'] || process.env['HTTP_PROXY']; } })(); if (proxyVar) { try { return new URL(proxyVar); } catch (_a) { if (!proxyVar.startsWith('http://') && !proxyVar.startsWith('https://')) return new URL(`http://${proxyVar}`); } } else { return undefined; } } exports.getProxyUrl = getProxyUrl; function checkBypass(reqUrl) { if (!reqUrl.hostname) { return false; } const reqHost = reqUrl.hostname; if (isLoopbackAddress(reqHost)) { return true; } const noProxy = process.env['no_proxy'] || process.env['NO_PROXY'] || ''; if (!noProxy) { return false; } // Determine the request port let reqPort; if (reqUrl.port) { reqPort = Number(reqUrl.port); } else if (reqUrl.protocol === 'http:') { reqPort = 80; } else if (reqUrl.protocol === 'https:') { reqPort = 443; } // Format the request hostname and hostname with port const upperReqHosts = [reqUrl.hostname.toUpperCase()]; if (typeof reqPort === 'number') { upperReqHosts.push(`${upperReqHosts[0]}:${reqPort}`); } // Compare request host against noproxy for (const upperNoProxyItem of noProxy .split(',') .map(x => x.trim().toUpperCase()) .filter(x => x)) { if (upperNoProxyItem === '*' || upperReqHosts.some(x => x === upperNoProxyItem || x.endsWith(`.${upperNoProxyItem}`) || (upperNoProxyItem.startsWith('.') && x.endsWith(`${upperNoProxyItem}`)))) { return true; } } return false; } exports.checkBypass = checkBypass; function isLoopbackAddress(host) { const hostLower = host.toLowerCase(); return (hostLower === 'localhost' || hostLower.startsWith('127.') || hostLower.startsWith('[::1]') || hostLower.startsWith('[0:0:0:0:0:0:0:1]')); } //# sourceMappingURL=proxy.js.map /***/ }), /***/ 3771: /***/ ((module, exports) => { exports = module.exports = SemVer var debug /* istanbul ignore next */ if (typeof process === 'object' && process.env && process.env.NODE_DEBUG && /\bsemver\b/i.test(process.env.NODE_DEBUG)) { debug = function () { var args = Array.prototype.slice.call(arguments, 0) args.unshift('SEMVER') console.log.apply(console, args) } } else { debug = function () {} } // Note: this is the semver.org version of the spec that it implements // Not necessarily the package version of this code. exports.SEMVER_SPEC_VERSION = '2.0.0' var MAX_LENGTH = 256 var MAX_SAFE_INTEGER = Number.MAX_SAFE_INTEGER || /* istanbul ignore next */ 9007199254740991 // Max safe segment length for coercion. var MAX_SAFE_COMPONENT_LENGTH = 16 var MAX_SAFE_BUILD_LENGTH = MAX_LENGTH - 6 // The actual regexps go on exports.re var re = exports.re = [] var safeRe = exports.safeRe = [] var src = exports.src = [] var t = exports.tokens = {} var R = 0 function tok (n) { t[n] = R++ } var LETTERDASHNUMBER = '[a-zA-Z0-9-]' // Replace some greedy regex tokens to prevent regex dos issues. These regex are // used internally via the safeRe object since all inputs in this library get // normalized first to trim and collapse all extra whitespace. The original // regexes are exported for userland consumption and lower level usage. A // future breaking change could export the safer regex only with a note that // all input should have extra whitespace removed. var safeRegexReplacements = [ ['\\s', 1], ['\\d', MAX_LENGTH], [LETTERDASHNUMBER, MAX_SAFE_BUILD_LENGTH], ] function makeSafeRe (value) { for (var i = 0; i < safeRegexReplacements.length; i++) { var token = safeRegexReplacements[i][0] var max = safeRegexReplacements[i][1] value = value .split(token + '*').join(token + '{0,' + max + '}') .split(token + '+').join(token + '{1,' + max + '}') } return value } // The following Regular Expressions can be used for tokenizing, // validating, and parsing SemVer version strings. // ## Numeric Identifier // A single `0`, or a non-zero digit followed by zero or more digits. tok('NUMERICIDENTIFIER') src[t.NUMERICIDENTIFIER] = '0|[1-9]\\d*' tok('NUMERICIDENTIFIERLOOSE') src[t.NUMERICIDENTIFIERLOOSE] = '\\d+' // ## Non-numeric Identifier // Zero or more digits, followed by a letter or hyphen, and then zero or // more letters, digits, or hyphens. tok('NONNUMERICIDENTIFIER') src[t.NONNUMERICIDENTIFIER] = '\\d*[a-zA-Z-]' + LETTERDASHNUMBER + '*' // ## Main Version // Three dot-separated numeric identifiers. tok('MAINVERSION') src[t.MAINVERSION] = '(' + src[t.NUMERICIDENTIFIER] + ')\\.' + '(' + src[t.NUMERICIDENTIFIER] + ')\\.' + '(' + src[t.NUMERICIDENTIFIER] + ')' tok('MAINVERSIONLOOSE') src[t.MAINVERSIONLOOSE] = '(' + src[t.NUMERICIDENTIFIERLOOSE] + ')\\.' + '(' + src[t.NUMERICIDENTIFIERLOOSE] + ')\\.' + '(' + src[t.NUMERICIDENTIFIERLOOSE] + ')' // ## Pre-release Version Identifier // A numeric identifier, or a non-numeric identifier. tok('PRERELEASEIDENTIFIER') src[t.PRERELEASEIDENTIFIER] = '(?:' + src[t.NUMERICIDENTIFIER] + '|' + src[t.NONNUMERICIDENTIFIER] + ')' tok('PRERELEASEIDENTIFIERLOOSE') src[t.PRERELEASEIDENTIFIERLOOSE] = '(?:' + src[t.NUMERICIDENTIFIERLOOSE] + '|' + src[t.NONNUMERICIDENTIFIER] + ')' // ## Pre-release Version // Hyphen, followed by one or more dot-separated pre-release version // identifiers. tok('PRERELEASE') src[t.PRERELEASE] = '(?:-(' + src[t.PRERELEASEIDENTIFIER] + '(?:\\.' + src[t.PRERELEASEIDENTIFIER] + ')*))' tok('PRERELEASELOOSE') src[t.PRERELEASELOOSE] = '(?:-?(' + src[t.PRERELEASEIDENTIFIERLOOSE] + '(?:\\.' + src[t.PRERELEASEIDENTIFIERLOOSE] + ')*))' // ## Build Metadata Identifier // Any combination of digits, letters, or hyphens. tok('BUILDIDENTIFIER') src[t.BUILDIDENTIFIER] = LETTERDASHNUMBER + '+' // ## Build Metadata // Plus sign, followed by one or more period-separated build metadata // identifiers. tok('BUILD') src[t.BUILD] = '(?:\\+(' + src[t.BUILDIDENTIFIER] + '(?:\\.' + src[t.BUILDIDENTIFIER] + ')*))' // ## Full Version String // A main version, followed optionally by a pre-release version and // build metadata. // Note that the only major, minor, patch, and pre-release sections of // the version string are capturing groups. The build metadata is not a // capturing group, because it should not ever be used in version // comparison. tok('FULL') tok('FULLPLAIN') src[t.FULLPLAIN] = 'v?' + src[t.MAINVERSION] + src[t.PRERELEASE] + '?' + src[t.BUILD] + '?' src[t.FULL] = '^' + src[t.FULLPLAIN] + '$' // like full, but allows v1.2.3 and =1.2.3, which people do sometimes. // also, 1.0.0alpha1 (prerelease without the hyphen) which is pretty // common in the npm registry. tok('LOOSEPLAIN') src[t.LOOSEPLAIN] = '[v=\\s]*' + src[t.MAINVERSIONLOOSE] + src[t.PRERELEASELOOSE] + '?' + src[t.BUILD] + '?' tok('LOOSE') src[t.LOOSE] = '^' + src[t.LOOSEPLAIN] + '$' tok('GTLT') src[t.GTLT] = '((?:<|>)?=?)' // Something like "2.*" or "1.2.x". // Note that "x.x" is a valid xRange identifer, meaning "any version" // Only the first item is strictly required. tok('XRANGEIDENTIFIERLOOSE') src[t.XRANGEIDENTIFIERLOOSE] = src[t.NUMERICIDENTIFIERLOOSE] + '|x|X|\\*' tok('XRANGEIDENTIFIER') src[t.XRANGEIDENTIFIER] = src[t.NUMERICIDENTIFIER] + '|x|X|\\*' tok('XRANGEPLAIN') src[t.XRANGEPLAIN] = '[v=\\s]*(' + src[t.XRANGEIDENTIFIER] + ')' + '(?:\\.(' + src[t.XRANGEIDENTIFIER] + ')' + '(?:\\.(' + src[t.XRANGEIDENTIFIER] + ')' + '(?:' + src[t.PRERELEASE] + ')?' + src[t.BUILD] + '?' + ')?)?' tok('XRANGEPLAINLOOSE') src[t.XRANGEPLAINLOOSE] = '[v=\\s]*(' + src[t.XRANGEIDENTIFIERLOOSE] + ')' + '(?:\\.(' + src[t.XRANGEIDENTIFIERLOOSE] + ')' + '(?:\\.(' + src[t.XRANGEIDENTIFIERLOOSE] + ')' + '(?:' + src[t.PRERELEASELOOSE] + ')?' + src[t.BUILD] + '?' + ')?)?' tok('XRANGE') src[t.XRANGE] = '^' + src[t.GTLT] + '\\s*' + src[t.XRANGEPLAIN] + '$' tok('XRANGELOOSE') src[t.XRANGELOOSE] = '^' + src[t.GTLT] + '\\s*' + src[t.XRANGEPLAINLOOSE] + '$' // Coercion. // Extract anything that could conceivably be a part of a valid semver tok('COERCE') src[t.COERCE] = '(^|[^\\d])' + '(\\d{1,' + MAX_SAFE_COMPONENT_LENGTH + '})' + '(?:\\.(\\d{1,' + MAX_SAFE_COMPONENT_LENGTH + '}))?' + '(?:\\.(\\d{1,' + MAX_SAFE_COMPONENT_LENGTH + '}))?' + '(?:$|[^\\d])' tok('COERCERTL') re[t.COERCERTL] = new RegExp(src[t.COERCE], 'g') safeRe[t.COERCERTL] = new RegExp(makeSafeRe(src[t.COERCE]), 'g') // Tilde ranges. // Meaning is "reasonably at or greater than" tok('LONETILDE') src[t.LONETILDE] = '(?:~>?)' tok('TILDETRIM') src[t.TILDETRIM] = '(\\s*)' + src[t.LONETILDE] + '\\s+' re[t.TILDETRIM] = new RegExp(src[t.TILDETRIM], 'g') safeRe[t.TILDETRIM] = new RegExp(makeSafeRe(src[t.TILDETRIM]), 'g') var tildeTrimReplace = '$1~' tok('TILDE') src[t.TILDE] = '^' + src[t.LONETILDE] + src[t.XRANGEPLAIN] + '$' tok('TILDELOOSE') src[t.TILDELOOSE] = '^' + src[t.LONETILDE] + src[t.XRANGEPLAINLOOSE] + '$' // Caret ranges. // Meaning is "at least and backwards compatible with" tok('LONECARET') src[t.LONECARET] = '(?:\\^)' tok('CARETTRIM') src[t.CARETTRIM] = '(\\s*)' + src[t.LONECARET] + '\\s+' re[t.CARETTRIM] = new RegExp(src[t.CARETTRIM], 'g') safeRe[t.CARETTRIM] = new RegExp(makeSafeRe(src[t.CARETTRIM]), 'g') var caretTrimReplace = '$1^' tok('CARET') src[t.CARET] = '^' + src[t.LONECARET] + src[t.XRANGEPLAIN] + '$' tok('CARETLOOSE') src[t.CARETLOOSE] = '^' + src[t.LONECARET] + src[t.XRANGEPLAINLOOSE] + '$' // A simple gt/lt/eq thing, or just "" to indicate "any version" tok('COMPARATORLOOSE') src[t.COMPARATORLOOSE] = '^' + src[t.GTLT] + '\\s*(' + src[t.LOOSEPLAIN] + ')$|^$' tok('COMPARATOR') src[t.COMPARATOR] = '^' + src[t.GTLT] + '\\s*(' + src[t.FULLPLAIN] + ')$|^$' // An expression to strip any whitespace between the gtlt and the thing // it modifies, so that `> 1.2.3` ==> `>1.2.3` tok('COMPARATORTRIM') src[t.COMPARATORTRIM] = '(\\s*)' + src[t.GTLT] + '\\s*(' + src[t.LOOSEPLAIN] + '|' + src[t.XRANGEPLAIN] + ')' // this one has to use the /g flag re[t.COMPARATORTRIM] = new RegExp(src[t.COMPARATORTRIM], 'g') safeRe[t.COMPARATORTRIM] = new RegExp(makeSafeRe(src[t.COMPARATORTRIM]), 'g') var comparatorTrimReplace = '$1$2$3' // Something like `1.2.3 - 1.2.4` // Note that these all use the loose form, because they'll be // checked against either the strict or loose comparator form // later. tok('HYPHENRANGE') src[t.HYPHENRANGE] = '^\\s*(' + src[t.XRANGEPLAIN] + ')' + '\\s+-\\s+' + '(' + src[t.XRANGEPLAIN] + ')' + '\\s*$' tok('HYPHENRANGELOOSE') src[t.HYPHENRANGELOOSE] = '^\\s*(' + src[t.XRANGEPLAINLOOSE] + ')' + '\\s+-\\s+' + '(' + src[t.XRANGEPLAINLOOSE] + ')' + '\\s*$' // Star ranges basically just allow anything at all. tok('STAR') src[t.STAR] = '(<|>)?=?\\s*\\*' // Compile to actual regexp objects. // All are flag-free, unless they were created above with a flag. for (var i = 0; i < R; i++) { debug(i, src[i]) if (!re[i]) { re[i] = new RegExp(src[i]) // Replace all greedy whitespace to prevent regex dos issues. These regex are // used internally via the safeRe object since all inputs in this library get // normalized first to trim and collapse all extra whitespace. The original // regexes are exported for userland consumption and lower level usage. A // future breaking change could export the safer regex only with a note that // all input should have extra whitespace removed. safeRe[i] = new RegExp(makeSafeRe(src[i])) } } exports.parse = parse function parse (version, options) { if (!options || typeof options !== 'object') { options = { loose: !!options, includePrerelease: false } } if (version instanceof SemVer) { return version } if (typeof version !== 'string') { return null } if (version.length > MAX_LENGTH) { return null } var r = options.loose ? safeRe[t.LOOSE] : safeRe[t.FULL] if (!r.test(version)) { return null } try { return new SemVer(version, options) } catch (er) { return null } } exports.valid = valid function valid (version, options) { var v = parse(version, options) return v ? v.version : null } exports.clean = clean function clean (version, options) { var s = parse(version.trim().replace(/^[=v]+/, ''), options) return s ? s.version : null } exports.SemVer = SemVer function SemVer (version, options) { if (!options || typeof options !== 'object') { options = { loose: !!options, includePrerelease: false } } if (version instanceof SemVer) { if (version.loose === options.loose) { return version } else { version = version.version } } else if (typeof version !== 'string') { throw new TypeError('Invalid Version: ' + version) } if (version.length > MAX_LENGTH) { throw new TypeError('version is longer than ' + MAX_LENGTH + ' characters') } if (!(this instanceof SemVer)) { return new SemVer(version, options) } debug('SemVer', version, options) this.options = options this.loose = !!options.loose var m = version.trim().match(options.loose ? safeRe[t.LOOSE] : safeRe[t.FULL]) if (!m) { throw new TypeError('Invalid Version: ' + version) } this.raw = version // these are actually numbers this.major = +m[1] this.minor = +m[2] this.patch = +m[3] if (this.major > MAX_SAFE_INTEGER || this.major < 0) { throw new TypeError('Invalid major version') } if (this.minor > MAX_SAFE_INTEGER || this.minor < 0) { throw new TypeError('Invalid minor version') } if (this.patch > MAX_SAFE_INTEGER || this.patch < 0) { throw new TypeError('Invalid patch version') } // numberify any prerelease numeric ids if (!m[4]) { this.prerelease = [] } else { this.prerelease = m[4].split('.').map(function (id) { if (/^[0-9]+$/.test(id)) { var num = +id if (num >= 0 && num < MAX_SAFE_INTEGER) { return num } } return id }) } this.build = m[5] ? m[5].split('.') : [] this.format() } SemVer.prototype.format = function () { this.version = this.major + '.' + this.minor + '.' + this.patch if (this.prerelease.length) { this.version += '-' + this.prerelease.join('.') } return this.version } SemVer.prototype.toString = function () { return this.version } SemVer.prototype.compare = function (other) { debug('SemVer.compare', this.version, this.options, other) if (!(other instanceof SemVer)) { other = new SemVer(other, this.options) } return this.compareMain(other) || this.comparePre(other) } SemVer.prototype.compareMain = function (other) { if (!(other instanceof SemVer)) { other = new SemVer(other, this.options) } return compareIdentifiers(this.major, other.major) || compareIdentifiers(this.minor, other.minor) || compareIdentifiers(this.patch, other.patch) } SemVer.prototype.comparePre = function (other) { if (!(other instanceof SemVer)) { other = new SemVer(other, this.options) } // NOT having a prerelease is > having one if (this.prerelease.length && !other.prerelease.length) { return -1 } else if (!this.prerelease.length && other.prerelease.length) { return 1 } else if (!this.prerelease.length && !other.prerelease.length) { return 0 } var i = 0 do { var a = this.prerelease[i] var b = other.prerelease[i] debug('prerelease compare', i, a, b) if (a === undefined && b === undefined) { return 0 } else if (b === undefined) { return 1 } else if (a === undefined) { return -1 } else if (a === b) { continue } else { return compareIdentifiers(a, b) } } while (++i) } SemVer.prototype.compareBuild = function (other) { if (!(other instanceof SemVer)) { other = new SemVer(other, this.options) } var i = 0 do { var a = this.build[i] var b = other.build[i] debug('prerelease compare', i, a, b) if (a === undefined && b === undefined) { return 0 } else if (b === undefined) { return 1 } else if (a === undefined) { return -1 } else if (a === b) { continue } else { return compareIdentifiers(a, b) } } while (++i) } // preminor will bump the version up to the next minor release, and immediately // down to pre-release. premajor and prepatch work the same way. SemVer.prototype.inc = function (release, identifier) { switch (release) { case 'premajor': this.prerelease.length = 0 this.patch = 0 this.minor = 0 this.major++ this.inc('pre', identifier) break case 'preminor': this.prerelease.length = 0 this.patch = 0 this.minor++ this.inc('pre', identifier) break case 'prepatch': // If this is already a prerelease, it will bump to the next version // drop any prereleases that might already exist, since they are not // relevant at this point. this.prerelease.length = 0 this.inc('patch', identifier) this.inc('pre', identifier) break // If the input is a non-prerelease version, this acts the same as // prepatch. case 'prerelease': if (this.prerelease.length === 0) { this.inc('patch', identifier) } this.inc('pre', identifier) break case 'major': // If this is a pre-major version, bump up to the same major version. // Otherwise increment major. // 1.0.0-5 bumps to 1.0.0 // 1.1.0 bumps to 2.0.0 if (this.minor !== 0 || this.patch !== 0 || this.prerelease.length === 0) { this.major++ } this.minor = 0 this.patch = 0 this.prerelease = [] break case 'minor': // If this is a pre-minor version, bump up to the same minor version. // Otherwise increment minor. // 1.2.0-5 bumps to 1.2.0 // 1.2.1 bumps to 1.3.0 if (this.patch !== 0 || this.prerelease.length === 0) { this.minor++ } this.patch = 0 this.prerelease = [] break case 'patch': // If this is not a pre-release version, it will increment the patch. // If it is a pre-release it will bump up to the same patch version. // 1.2.0-5 patches to 1.2.0 // 1.2.0 patches to 1.2.1 if (this.prerelease.length === 0) { this.patch++ } this.prerelease = [] break // This probably shouldn't be used publicly. // 1.0.0 "pre" would become 1.0.0-0 which is the wrong direction. case 'pre': if (this.prerelease.length === 0) { this.prerelease = [0] } else { var i = this.prerelease.length while (--i >= 0) { if (typeof this.prerelease[i] === 'number') { this.prerelease[i]++ i = -2 } } if (i === -1) { // didn't increment anything this.prerelease.push(0) } } if (identifier) { // 1.2.0-beta.1 bumps to 1.2.0-beta.2, // 1.2.0-beta.fooblz or 1.2.0-beta bumps to 1.2.0-beta.0 if (this.prerelease[0] === identifier) { if (isNaN(this.prerelease[1])) { this.prerelease = [identifier, 0] } } else { this.prerelease = [identifier, 0] } } break default: throw new Error('invalid increment argument: ' + release) } this.format() this.raw = this.version return this } exports.inc = inc function inc (version, release, loose, identifier) { if (typeof (loose) === 'string') { identifier = loose loose = undefined } try { return new SemVer(version, loose).inc(release, identifier).version } catch (er) { return null } } exports.diff = diff function diff (version1, version2) { if (eq(version1, version2)) { return null } else { var v1 = parse(version1) var v2 = parse(version2) var prefix = '' if (v1.prerelease.length || v2.prerelease.length) { prefix = 'pre' var defaultResult = 'prerelease' } for (var key in v1) { if (key === 'major' || key === 'minor' || key === 'patch') { if (v1[key] !== v2[key]) { return prefix + key } } } return defaultResult // may be undefined } } exports.compareIdentifiers = compareIdentifiers var numeric = /^[0-9]+$/ function compareIdentifiers (a, b) { var anum = numeric.test(a) var bnum = numeric.test(b) if (anum && bnum) { a = +a b = +b } return a === b ? 0 : (anum && !bnum) ? -1 : (bnum && !anum) ? 1 : a < b ? -1 : 1 } exports.rcompareIdentifiers = rcompareIdentifiers function rcompareIdentifiers (a, b) { return compareIdentifiers(b, a) } exports.major = major function major (a, loose) { return new SemVer(a, loose).major } exports.minor = minor function minor (a, loose) { return new SemVer(a, loose).minor } exports.patch = patch function patch (a, loose) { return new SemVer(a, loose).patch } exports.compare = compare function compare (a, b, loose) { return new SemVer(a, loose).compare(new SemVer(b, loose)) } exports.compareLoose = compareLoose function compareLoose (a, b) { return compare(a, b, true) } exports.compareBuild = compareBuild function compareBuild (a, b, loose) { var versionA = new SemVer(a, loose) var versionB = new SemVer(b, loose) return versionA.compare(versionB) || versionA.compareBuild(versionB) } exports.rcompare = rcompare function rcompare (a, b, loose) { return compare(b, a, loose) } exports.sort = sort function sort (list, loose) { return list.sort(function (a, b) { return exports.compareBuild(a, b, loose) }) } exports.rsort = rsort function rsort (list, loose) { return list.sort(function (a, b) { return exports.compareBuild(b, a, loose) }) } exports.gt = gt function gt (a, b, loose) { return compare(a, b, loose) > 0 } exports.lt = lt function lt (a, b, loose) { return compare(a, b, loose) < 0 } exports.eq = eq function eq (a, b, loose) { return compare(a, b, loose) === 0 } exports.neq = neq function neq (a, b, loose) { return compare(a, b, loose) !== 0 } exports.gte = gte function gte (a, b, loose) { return compare(a, b, loose) >= 0 } exports.lte = lte function lte (a, b, loose) { return compare(a, b, loose) <= 0 } exports.cmp = cmp function cmp (a, op, b, loose) { switch (op) { case '===': if (typeof a === 'object') a = a.version if (typeof b === 'object') b = b.version return a === b case '!==': if (typeof a === 'object') a = a.version if (typeof b === 'object') b = b.version return a !== b case '': case '=': case '==': return eq(a, b, loose) case '!=': return neq(a, b, loose) case '>': return gt(a, b, loose) case '>=': return gte(a, b, loose) case '<': return lt(a, b, loose) case '<=': return lte(a, b, loose) default: throw new TypeError('Invalid operator: ' + op) } } exports.Comparator = Comparator function Comparator (comp, options) { if (!options || typeof options !== 'object') { options = { loose: !!options, includePrerelease: false } } if (comp instanceof Comparator) { if (comp.loose === !!options.loose) { return comp } else { comp = comp.value } } if (!(this instanceof Comparator)) { return new Comparator(comp, options) } comp = comp.trim().split(/\s+/).join(' ') debug('comparator', comp, options) this.options = options this.loose = !!options.loose this.parse(comp) if (this.semver === ANY) { this.value = '' } else { this.value = this.operator + this.semver.version } debug('comp', this) } var ANY = {} Comparator.prototype.parse = function (comp) { var r = this.options.loose ? safeRe[t.COMPARATORLOOSE] : safeRe[t.COMPARATOR] var m = comp.match(r) if (!m) { throw new TypeError('Invalid comparator: ' + comp) } this.operator = m[1] !== undefined ? m[1] : '' if (this.operator === '=') { this.operator = '' } // if it literally is just '>' or '' then allow anything. if (!m[2]) { this.semver = ANY } else { this.semver = new SemVer(m[2], this.options.loose) } } Comparator.prototype.toString = function () { return this.value } Comparator.prototype.test = function (version) { debug('Comparator.test', version, this.options.loose) if (this.semver === ANY || version === ANY) { return true } if (typeof version === 'string') { try { version = new SemVer(version, this.options) } catch (er) { return false } } return cmp(version, this.operator, this.semver, this.options) } Comparator.prototype.intersects = function (comp, options) { if (!(comp instanceof Comparator)) { throw new TypeError('a Comparator is required') } if (!options || typeof options !== 'object') { options = { loose: !!options, includePrerelease: false } } var rangeTmp if (this.operator === '') { if (this.value === '') { return true } rangeTmp = new Range(comp.value, options) return satisfies(this.value, rangeTmp, options) } else if (comp.operator === '') { if (comp.value === '') { return true } rangeTmp = new Range(this.value, options) return satisfies(comp.semver, rangeTmp, options) } var sameDirectionIncreasing = (this.operator === '>=' || this.operator === '>') && (comp.operator === '>=' || comp.operator === '>') var sameDirectionDecreasing = (this.operator === '<=' || this.operator === '<') && (comp.operator === '<=' || comp.operator === '<') var sameSemVer = this.semver.version === comp.semver.version var differentDirectionsInclusive = (this.operator === '>=' || this.operator === '<=') && (comp.operator === '>=' || comp.operator === '<=') var oppositeDirectionsLessThan = cmp(this.semver, '<', comp.semver, options) && ((this.operator === '>=' || this.operator === '>') && (comp.operator === '<=' || comp.operator === '<')) var oppositeDirectionsGreaterThan = cmp(this.semver, '>', comp.semver, options) && ((this.operator === '<=' || this.operator === '<') && (comp.operator === '>=' || comp.operator === '>')) return sameDirectionIncreasing || sameDirectionDecreasing || (sameSemVer && differentDirectionsInclusive) || oppositeDirectionsLessThan || oppositeDirectionsGreaterThan } exports.Range = Range function Range (range, options) { if (!options || typeof options !== 'object') { options = { loose: !!options, includePrerelease: false } } if (range instanceof Range) { if (range.loose === !!options.loose && range.includePrerelease === !!options.includePrerelease) { return range } else { return new Range(range.raw, options) } } if (range instanceof Comparator) { return new Range(range.value, options) } if (!(this instanceof Range)) { return new Range(range, options) } this.options = options this.loose = !!options.loose this.includePrerelease = !!options.includePrerelease // First reduce all whitespace as much as possible so we do not have to rely // on potentially slow regexes like \s*. This is then stored and used for // future error messages as well. this.raw = range .trim() .split(/\s+/) .join(' ') // First, split based on boolean or || this.set = this.raw.split('||').map(function (range) { return this.parseRange(range.trim()) }, this).filter(function (c) { // throw out any that are not relevant for whatever reason return c.length }) if (!this.set.length) { throw new TypeError('Invalid SemVer Range: ' + this.raw) } this.format() } Range.prototype.format = function () { this.range = this.set.map(function (comps) { return comps.join(' ').trim() }).join('||').trim() return this.range } Range.prototype.toString = function () { return this.range } Range.prototype.parseRange = function (range) { var loose = this.options.loose // `1.2.3 - 1.2.4` => `>=1.2.3 <=1.2.4` var hr = loose ? safeRe[t.HYPHENRANGELOOSE] : safeRe[t.HYPHENRANGE] range = range.replace(hr, hyphenReplace) debug('hyphen replace', range) // `> 1.2.3 < 1.2.5` => `>1.2.3 <1.2.5` range = range.replace(safeRe[t.COMPARATORTRIM], comparatorTrimReplace) debug('comparator trim', range, safeRe[t.COMPARATORTRIM]) // `~ 1.2.3` => `~1.2.3` range = range.replace(safeRe[t.TILDETRIM], tildeTrimReplace) // `^ 1.2.3` => `^1.2.3` range = range.replace(safeRe[t.CARETTRIM], caretTrimReplace) // normalize spaces range = range.split(/\s+/).join(' ') // At this point, the range is completely trimmed and // ready to be split into comparators. var compRe = loose ? safeRe[t.COMPARATORLOOSE] : safeRe[t.COMPARATOR] var set = range.split(' ').map(function (comp) { return parseComparator(comp, this.options) }, this).join(' ').split(/\s+/) if (this.options.loose) { // in loose mode, throw out any that are not valid comparators set = set.filter(function (comp) { return !!comp.match(compRe) }) } set = set.map(function (comp) { return new Comparator(comp, this.options) }, this) return set } Range.prototype.intersects = function (range, options) { if (!(range instanceof Range)) { throw new TypeError('a Range is required') } return this.set.some(function (thisComparators) { return ( isSatisfiable(thisComparators, options) && range.set.some(function (rangeComparators) { return ( isSatisfiable(rangeComparators, options) && thisComparators.every(function (thisComparator) { return rangeComparators.every(function (rangeComparator) { return thisComparator.intersects(rangeComparator, options) }) }) ) }) ) }) } // take a set of comparators and determine whether there // exists a version which can satisfy it function isSatisfiable (comparators, options) { var result = true var remainingComparators = comparators.slice() var testComparator = remainingComparators.pop() while (result && remainingComparators.length) { result = remainingComparators.every(function (otherComparator) { return testComparator.intersects(otherComparator, options) }) testComparator = remainingComparators.pop() } return result } // Mostly just for testing and legacy API reasons exports.toComparators = toComparators function toComparators (range, options) { return new Range(range, options).set.map(function (comp) { return comp.map(function (c) { return c.value }).join(' ').trim().split(' ') }) } // comprised of xranges, tildes, stars, and gtlt's at this point. // already replaced the hyphen ranges // turn into a set of JUST comparators. function parseComparator (comp, options) { debug('comp', comp, options) comp = replaceCarets(comp, options) debug('caret', comp) comp = replaceTildes(comp, options) debug('tildes', comp) comp = replaceXRanges(comp, options) debug('xrange', comp) comp = replaceStars(comp, options) debug('stars', comp) return comp } function isX (id) { return !id || id.toLowerCase() === 'x' || id === '*' } // ~, ~> --> * (any, kinda silly) // ~2, ~2.x, ~2.x.x, ~>2, ~>2.x ~>2.x.x --> >=2.0.0 <3.0.0 // ~2.0, ~2.0.x, ~>2.0, ~>2.0.x --> >=2.0.0 <2.1.0 // ~1.2, ~1.2.x, ~>1.2, ~>1.2.x --> >=1.2.0 <1.3.0 // ~1.2.3, ~>1.2.3 --> >=1.2.3 <1.3.0 // ~1.2.0, ~>1.2.0 --> >=1.2.0 <1.3.0 function replaceTildes (comp, options) { return comp.trim().split(/\s+/).map(function (comp) { return replaceTilde(comp, options) }).join(' ') } function replaceTilde (comp, options) { var r = options.loose ? safeRe[t.TILDELOOSE] : safeRe[t.TILDE] return comp.replace(r, function (_, M, m, p, pr) { debug('tilde', comp, _, M, m, p, pr) var ret if (isX(M)) { ret = '' } else if (isX(m)) { ret = '>=' + M + '.0.0 <' + (+M + 1) + '.0.0' } else if (isX(p)) { // ~1.2 == >=1.2.0 <1.3.0 ret = '>=' + M + '.' + m + '.0 <' + M + '.' + (+m + 1) + '.0' } else if (pr) { debug('replaceTilde pr', pr) ret = '>=' + M + '.' + m + '.' + p + '-' + pr + ' <' + M + '.' + (+m + 1) + '.0' } else { // ~1.2.3 == >=1.2.3 <1.3.0 ret = '>=' + M + '.' + m + '.' + p + ' <' + M + '.' + (+m + 1) + '.0' } debug('tilde return', ret) return ret }) } // ^ --> * (any, kinda silly) // ^2, ^2.x, ^2.x.x --> >=2.0.0 <3.0.0 // ^2.0, ^2.0.x --> >=2.0.0 <3.0.0 // ^1.2, ^1.2.x --> >=1.2.0 <2.0.0 // ^1.2.3 --> >=1.2.3 <2.0.0 // ^1.2.0 --> >=1.2.0 <2.0.0 function replaceCarets (comp, options) { return comp.trim().split(/\s+/).map(function (comp) { return replaceCaret(comp, options) }).join(' ') } function replaceCaret (comp, options) { debug('caret', comp, options) var r = options.loose ? safeRe[t.CARETLOOSE] : safeRe[t.CARET] return comp.replace(r, function (_, M, m, p, pr) { debug('caret', comp, _, M, m, p, pr) var ret if (isX(M)) { ret = '' } else if (isX(m)) { ret = '>=' + M + '.0.0 <' + (+M + 1) + '.0.0' } else if (isX(p)) { if (M === '0') { ret = '>=' + M + '.' + m + '.0 <' + M + '.' + (+m + 1) + '.0' } else { ret = '>=' + M + '.' + m + '.0 <' + (+M + 1) + '.0.0' } } else if (pr) { debug('replaceCaret pr', pr) if (M === '0') { if (m === '0') { ret = '>=' + M + '.' + m + '.' + p + '-' + pr + ' <' + M + '.' + m + '.' + (+p + 1) } else { ret = '>=' + M + '.' + m + '.' + p + '-' + pr + ' <' + M + '.' + (+m + 1) + '.0' } } else { ret = '>=' + M + '.' + m + '.' + p + '-' + pr + ' <' + (+M + 1) + '.0.0' } } else { debug('no pr') if (M === '0') { if (m === '0') { ret = '>=' + M + '.' + m + '.' + p + ' <' + M + '.' + m + '.' + (+p + 1) } else { ret = '>=' + M + '.' + m + '.' + p + ' <' + M + '.' + (+m + 1) + '.0' } } else { ret = '>=' + M + '.' + m + '.' + p + ' <' + (+M + 1) + '.0.0' } } debug('caret return', ret) return ret }) } function replaceXRanges (comp, options) { debug('replaceXRanges', comp, options) return comp.split(/\s+/).map(function (comp) { return replaceXRange(comp, options) }).join(' ') } function replaceXRange (comp, options) { comp = comp.trim() var r = options.loose ? safeRe[t.XRANGELOOSE] : safeRe[t.XRANGE] return comp.replace(r, function (ret, gtlt, M, m, p, pr) { debug('xRange', comp, ret, gtlt, M, m, p, pr) var xM = isX(M) var xm = xM || isX(m) var xp = xm || isX(p) var anyX = xp if (gtlt === '=' && anyX) { gtlt = '' } // if we're including prereleases in the match, then we need // to fix this to -0, the lowest possible prerelease value pr = options.includePrerelease ? '-0' : '' if (xM) { if (gtlt === '>' || gtlt === '<') { // nothing is allowed ret = '<0.0.0-0' } else { // nothing is forbidden ret = '*' } } else if (gtlt && anyX) { // we know patch is an x, because we have any x at all. // replace X with 0 if (xm) { m = 0 } p = 0 if (gtlt === '>') { // >1 => >=2.0.0 // >1.2 => >=1.3.0 // >1.2.3 => >= 1.2.4 gtlt = '>=' if (xm) { M = +M + 1 m = 0 p = 0 } else { m = +m + 1 p = 0 } } else if (gtlt === '<=') { // <=0.7.x is actually <0.8.0, since any 0.7.x should // pass. Similarly, <=7.x is actually <8.0.0, etc. gtlt = '<' if (xm) { M = +M + 1 } else { m = +m + 1 } } ret = gtlt + M + '.' + m + '.' + p + pr } else if (xm) { ret = '>=' + M + '.0.0' + pr + ' <' + (+M + 1) + '.0.0' + pr } else if (xp) { ret = '>=' + M + '.' + m + '.0' + pr + ' <' + M + '.' + (+m + 1) + '.0' + pr } debug('xRange return', ret) return ret }) } // Because * is AND-ed with everything else in the comparator, // and '' means "any version", just remove the *s entirely. function replaceStars (comp, options) { debug('replaceStars', comp, options) // Looseness is ignored here. star is always as loose as it gets! return comp.trim().replace(safeRe[t.STAR], '') } // This function is passed to string.replace(re[t.HYPHENRANGE]) // M, m, patch, prerelease, build // 1.2 - 3.4.5 => >=1.2.0 <=3.4.5 // 1.2.3 - 3.4 => >=1.2.0 <3.5.0 Any 3.4.x will do // 1.2 - 3.4 => >=1.2.0 <3.5.0 function hyphenReplace ($0, from, fM, fm, fp, fpr, fb, to, tM, tm, tp, tpr, tb) { if (isX(fM)) { from = '' } else if (isX(fm)) { from = '>=' + fM + '.0.0' } else if (isX(fp)) { from = '>=' + fM + '.' + fm + '.0' } else { from = '>=' + from } if (isX(tM)) { to = '' } else if (isX(tm)) { to = '<' + (+tM + 1) + '.0.0' } else if (isX(tp)) { to = '<' + tM + '.' + (+tm + 1) + '.0' } else if (tpr) { to = '<=' + tM + '.' + tm + '.' + tp + '-' + tpr } else { to = '<=' + to } return (from + ' ' + to).trim() } // if ANY of the sets match ALL of its comparators, then pass Range.prototype.test = function (version) { if (!version) { return false } if (typeof version === 'string') { try { version = new SemVer(version, this.options) } catch (er) { return false } } for (var i = 0; i < this.set.length; i++) { if (testSet(this.set[i], version, this.options)) { return true } } return false } function testSet (set, version, options) { for (var i = 0; i < set.length; i++) { if (!set[i].test(version)) { return false } } if (version.prerelease.length && !options.includePrerelease) { // Find the set of versions that are allowed to have prereleases // For example, ^1.2.3-pr.1 desugars to >=1.2.3-pr.1 <2.0.0 // That should allow `1.2.3-pr.2` to pass. // However, `1.2.4-alpha.notready` should NOT be allowed, // even though it's within the range set by the comparators. for (i = 0; i < set.length; i++) { debug(set[i].semver) if (set[i].semver === ANY) { continue } if (set[i].semver.prerelease.length > 0) { var allowed = set[i].semver if (allowed.major === version.major && allowed.minor === version.minor && allowed.patch === version.patch) { return true } } } // Version has a -pre, but it's not one of the ones we like. return false } return true } exports.satisfies = satisfies function satisfies (version, range, options) { try { range = new Range(range, options) } catch (er) { return false } return range.test(version) } exports.maxSatisfying = maxSatisfying function maxSatisfying (versions, range, options) { var max = null var maxSV = null try { var rangeObj = new Range(range, options) } catch (er) { return null } versions.forEach(function (v) { if (rangeObj.test(v)) { // satisfies(v, range, options) if (!max || maxSV.compare(v) === -1) { // compare(max, v, true) max = v maxSV = new SemVer(max, options) } } }) return max } exports.minSatisfying = minSatisfying function minSatisfying (versions, range, options) { var min = null var minSV = null try { var rangeObj = new Range(range, options) } catch (er) { return null } versions.forEach(function (v) { if (rangeObj.test(v)) { // satisfies(v, range, options) if (!min || minSV.compare(v) === 1) { // compare(min, v, true) min = v minSV = new SemVer(min, options) } } }) return min } exports.minVersion = minVersion function minVersion (range, loose) { range = new Range(range, loose) var minver = new SemVer('0.0.0') if (range.test(minver)) { return minver } minver = new SemVer('0.0.0-0') if (range.test(minver)) { return minver } minver = null for (var i = 0; i < range.set.length; ++i) { var comparators = range.set[i] comparators.forEach(function (comparator) { // Clone to avoid manipulating the comparator's semver object. var compver = new SemVer(comparator.semver.version) switch (comparator.operator) { case '>': if (compver.prerelease.length === 0) { compver.patch++ } else { compver.prerelease.push(0) } compver.raw = compver.format() /* fallthrough */ case '': case '>=': if (!minver || gt(minver, compver)) { minver = compver } break case '<': case '<=': /* Ignore maximum versions */ break /* istanbul ignore next */ default: throw new Error('Unexpected operation: ' + comparator.operator) } }) } if (minver && range.test(minver)) { return minver } return null } exports.validRange = validRange function validRange (range, options) { try { // Return '*' instead of '' so that truthiness works. // This will throw if it's invalid anyway return new Range(range, options).range || '*' } catch (er) { return null } } // Determine if version is less than all the versions possible in the range exports.ltr = ltr function ltr (version, range, options) { return outside(version, range, '<', options) } // Determine if version is greater than all the versions possible in the range. exports.gtr = gtr function gtr (version, range, options) { return outside(version, range, '>', options) } exports.outside = outside function outside (version, range, hilo, options) { version = new SemVer(version, options) range = new Range(range, options) var gtfn, ltefn, ltfn, comp, ecomp switch (hilo) { case '>': gtfn = gt ltefn = lte ltfn = lt comp = '>' ecomp = '>=' break case '<': gtfn = lt ltefn = gte ltfn = gt comp = '<' ecomp = '<=' break default: throw new TypeError('Must provide a hilo val of "<" or ">"') } // If it satisifes the range it is not outside if (satisfies(version, range, options)) { return false } // From now on, variable terms are as if we're in "gtr" mode. // but note that everything is flipped for the "ltr" function. for (var i = 0; i < range.set.length; ++i) { var comparators = range.set[i] var high = null var low = null comparators.forEach(function (comparator) { if (comparator.semver === ANY) { comparator = new Comparator('>=0.0.0') } high = high || comparator low = low || comparator if (gtfn(comparator.semver, high.semver, options)) { high = comparator } else if (ltfn(comparator.semver, low.semver, options)) { low = comparator } }) // If the edge version comparator has a operator then our version // isn't outside it if (high.operator === comp || high.operator === ecomp) { return false } // If the lowest version comparator has an operator and our version // is less than it then it isn't higher than the range if ((!low.operator || low.operator === comp) && ltefn(version, low.semver)) { return false } else if (low.operator === ecomp && ltfn(version, low.semver)) { return false } } return true } exports.prerelease = prerelease function prerelease (version, options) { var parsed = parse(version, options) return (parsed && parsed.prerelease.length) ? parsed.prerelease : null } exports.intersects = intersects function intersects (r1, r2, options) { r1 = new Range(r1, options) r2 = new Range(r2, options) return r1.intersects(r2) } exports.coerce = coerce function coerce (version, options) { if (version instanceof SemVer) { return version } if (typeof version === 'number') { version = String(version) } if (typeof version !== 'string') { return null } options = options || {} var match = null if (!options.rtl) { match = version.match(safeRe[t.COERCE]) } else { // Find the right-most coercible string that does not share // a terminus with a more left-ward coercible string. // Eg, '1.2.3.4' wants to coerce '2.3.4', not '3.4' or '4' // // Walk through the string checking with a /g regexp // Manually set the index so as to pick up overlapping matches. // Stop when we get a match that ends at the string end, since no // coercible string can be more right-ward without the same terminus. var next while ((next = safeRe[t.COERCERTL].exec(version)) && (!match || match.index + match[0].length !== version.length) ) { if (!match || next.index + next[0].length !== match.index + match[0].length) { match = next } safeRe[t.COERCERTL].lastIndex = next.index + next[1].length + next[2].length } // leave it in a clean state safeRe[t.COERCERTL].lastIndex = -1 } if (match === null) { return null } return parse(match[2] + '.' + (match[3] || '0') + '.' + (match[4] || '0'), options) } /***/ }), /***/ 87351: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } }); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.issue = exports.issueCommand = void 0; const os = __importStar(__nccwpck_require__(22037)); const utils_1 = __nccwpck_require__(5278); /** * Commands * * Command Format: * ::name key=value,key=value::message * * Examples: * ::warning::This is the message * ::set-env name=MY_VAR::some value */ function issueCommand(command, properties, message) { const cmd = new Command(command, properties, message); process.stdout.write(cmd.toString() + os.EOL); } exports.issueCommand = issueCommand; function issue(name, message = '') { issueCommand(name, {}, message); } exports.issue = issue; const CMD_STRING = '::'; class Command { constructor(command, properties, message) { if (!command) { command = 'missing.command'; } this.command = command; this.properties = properties; this.message = message; } toString() { let cmdStr = CMD_STRING + this.command; if (this.properties && Object.keys(this.properties).length > 0) { cmdStr += ' '; let first = true; for (const key in this.properties) { if (this.properties.hasOwnProperty(key)) { const val = this.properties[key]; if (val) { if (first) { first = false; } else { cmdStr += ','; } cmdStr += `${key}=${escapeProperty(val)}`; } } } } cmdStr += `${CMD_STRING}${escapeData(this.message)}`; return cmdStr; } } function escapeData(s) { return utils_1.toCommandValue(s) .replace(/%/g, '%25') .replace(/\r/g, '%0D') .replace(/\n/g, '%0A'); } function escapeProperty(s) { return utils_1.toCommandValue(s) .replace(/%/g, '%25') .replace(/\r/g, '%0D') .replace(/\n/g, '%0A') .replace(/:/g, '%3A') .replace(/,/g, '%2C'); } //# sourceMappingURL=command.js.map /***/ }), /***/ 42186: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } }); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.getIDToken = exports.getState = exports.saveState = exports.group = exports.endGroup = exports.startGroup = exports.info = exports.notice = exports.warning = exports.error = exports.debug = exports.isDebug = exports.setFailed = exports.setCommandEcho = exports.setOutput = exports.getBooleanInput = exports.getMultilineInput = exports.getInput = exports.addPath = exports.setSecret = exports.exportVariable = exports.ExitCode = void 0; const command_1 = __nccwpck_require__(87351); const file_command_1 = __nccwpck_require__(717); const utils_1 = __nccwpck_require__(5278); const os = __importStar(__nccwpck_require__(22037)); const path = __importStar(__nccwpck_require__(71017)); const oidc_utils_1 = __nccwpck_require__(98041); /** * The code to exit an action */ var ExitCode; (function (ExitCode) { /** * A code indicating that the action was successful */ ExitCode[ExitCode["Success"] = 0] = "Success"; /** * A code indicating that the action was a failure */ ExitCode[ExitCode["Failure"] = 1] = "Failure"; })(ExitCode = exports.ExitCode || (exports.ExitCode = {})); //----------------------------------------------------------------------- // Variables //----------------------------------------------------------------------- /** * Sets env variable for this action and future actions in the job * @param name the name of the variable to set * @param val the value of the variable. Non-string values will be converted to a string via JSON.stringify */ // eslint-disable-next-line @typescript-eslint/no-explicit-any function exportVariable(name, val) { const convertedVal = utils_1.toCommandValue(val); process.env[name] = convertedVal; const filePath = process.env['GITHUB_ENV'] || ''; if (filePath) { return file_command_1.issueFileCommand('ENV', file_command_1.prepareKeyValueMessage(name, val)); } command_1.issueCommand('set-env', { name }, convertedVal); } exports.exportVariable = exportVariable; /** * Registers a secret which will get masked from logs * @param secret value of the secret */ function setSecret(secret) { command_1.issueCommand('add-mask', {}, secret); } exports.setSecret = setSecret; /** * Prepends inputPath to the PATH (for this action and future actions) * @param inputPath */ function addPath(inputPath) { const filePath = process.env['GITHUB_PATH'] || ''; if (filePath) { file_command_1.issueFileCommand('PATH', inputPath); } else { command_1.issueCommand('add-path', {}, inputPath); } process.env['PATH'] = `${inputPath}${path.delimiter}${process.env['PATH']}`; } exports.addPath = addPath; /** * Gets the value of an input. * Unless trimWhitespace is set to false in InputOptions, the value is also trimmed. * Returns an empty string if the value is not defined. * * @param name name of the input to get * @param options optional. See InputOptions. * @returns string */ function getInput(name, options) { const val = process.env[`INPUT_${name.replace(/ /g, '_').toUpperCase()}`] || ''; if (options && options.required && !val) { throw new Error(`Input required and not supplied: ${name}`); } if (options && options.trimWhitespace === false) { return val; } return val.trim(); } exports.getInput = getInput; /** * Gets the values of an multiline input. Each value is also trimmed. * * @param name name of the input to get * @param options optional. See InputOptions. * @returns string[] * */ function getMultilineInput(name, options) { const inputs = getInput(name, options) .split('\n') .filter(x => x !== ''); if (options && options.trimWhitespace === false) { return inputs; } return inputs.map(input => input.trim()); } exports.getMultilineInput = getMultilineInput; /** * Gets the input value of the boolean type in the YAML 1.2 "core schema" specification. * Support boolean input list: `true | True | TRUE | false | False | FALSE` . * The return value is also in boolean type. * ref: https://yaml.org/spec/1.2/spec.html#id2804923 * * @param name name of the input to get * @param options optional. See InputOptions. * @returns boolean */ function getBooleanInput(name, options) { const trueValue = ['true', 'True', 'TRUE']; const falseValue = ['false', 'False', 'FALSE']; const val = getInput(name, options); if (trueValue.includes(val)) return true; if (falseValue.includes(val)) return false; throw new TypeError(`Input does not meet YAML 1.2 "Core Schema" specification: ${name}\n` + `Support boolean input list: \`true | True | TRUE | false | False | FALSE\``); } exports.getBooleanInput = getBooleanInput; /** * Sets the value of an output. * * @param name name of the output to set * @param value value to store. Non-string values will be converted to a string via JSON.stringify */ // eslint-disable-next-line @typescript-eslint/no-explicit-any function setOutput(name, value) { const filePath = process.env['GITHUB_OUTPUT'] || ''; if (filePath) { return file_command_1.issueFileCommand('OUTPUT', file_command_1.prepareKeyValueMessage(name, value)); } process.stdout.write(os.EOL); command_1.issueCommand('set-output', { name }, utils_1.toCommandValue(value)); } exports.setOutput = setOutput; /** * Enables or disables the echoing of commands into stdout for the rest of the step. * Echoing is disabled by default if ACTIONS_STEP_DEBUG is not set. * */ function setCommandEcho(enabled) { command_1.issue('echo', enabled ? 'on' : 'off'); } exports.setCommandEcho = setCommandEcho; //----------------------------------------------------------------------- // Results //----------------------------------------------------------------------- /** * Sets the action status to failed. * When the action exits it will be with an exit code of 1 * @param message add error issue message */ function setFailed(message) { process.exitCode = ExitCode.Failure; error(message); } exports.setFailed = setFailed; //----------------------------------------------------------------------- // Logging Commands //----------------------------------------------------------------------- /** * Gets whether Actions Step Debug is on or not */ function isDebug() { return process.env['RUNNER_DEBUG'] === '1'; } exports.isDebug = isDebug; /** * Writes debug message to user log * @param message debug message */ function debug(message) { command_1.issueCommand('debug', {}, message); } exports.debug = debug; /** * Adds an error issue * @param message error issue message. Errors will be converted to string via toString() * @param properties optional properties to add to the annotation. */ function error(message, properties = {}) { command_1.issueCommand('error', utils_1.toCommandProperties(properties), message instanceof Error ? message.toString() : message); } exports.error = error; /** * Adds a warning issue * @param message warning issue message. Errors will be converted to string via toString() * @param properties optional properties to add to the annotation. */ function warning(message, properties = {}) { command_1.issueCommand('warning', utils_1.toCommandProperties(properties), message instanceof Error ? message.toString() : message); } exports.warning = warning; /** * Adds a notice issue * @param message notice issue message. Errors will be converted to string via toString() * @param properties optional properties to add to the annotation. */ function notice(message, properties = {}) { command_1.issueCommand('notice', utils_1.toCommandProperties(properties), message instanceof Error ? message.toString() : message); } exports.notice = notice; /** * Writes info to log with console.log. * @param message info message */ function info(message) { process.stdout.write(message + os.EOL); } exports.info = info; /** * Begin an output group. * * Output until the next `groupEnd` will be foldable in this group * * @param name The name of the output group */ function startGroup(name) { command_1.issue('group', name); } exports.startGroup = startGroup; /** * End an output group. */ function endGroup() { command_1.issue('endgroup'); } exports.endGroup = endGroup; /** * Wrap an asynchronous function call in a group. * * Returns the same type as the function itself. * * @param name The name of the group * @param fn The function to wrap in the group */ function group(name, fn) { return __awaiter(this, void 0, void 0, function* () { startGroup(name); let result; try { result = yield fn(); } finally { endGroup(); } return result; }); } exports.group = group; //----------------------------------------------------------------------- // Wrapper action state //----------------------------------------------------------------------- /** * Saves state for current action, the state can only be retrieved by this action's post job execution. * * @param name name of the state to store * @param value value to store. Non-string values will be converted to a string via JSON.stringify */ // eslint-disable-next-line @typescript-eslint/no-explicit-any function saveState(name, value) { const filePath = process.env['GITHUB_STATE'] || ''; if (filePath) { return file_command_1.issueFileCommand('STATE', file_command_1.prepareKeyValueMessage(name, value)); } command_1.issueCommand('save-state', { name }, utils_1.toCommandValue(value)); } exports.saveState = saveState; /** * Gets the value of an state set by this action's main execution. * * @param name name of the state to get * @returns string */ function getState(name) { return process.env[`STATE_${name}`] || ''; } exports.getState = getState; function getIDToken(aud) { return __awaiter(this, void 0, void 0, function* () { return yield oidc_utils_1.OidcClient.getIDToken(aud); }); } exports.getIDToken = getIDToken; /** * Summary exports */ var summary_1 = __nccwpck_require__(81327); Object.defineProperty(exports, "summary", ({ enumerable: true, get: function () { return summary_1.summary; } })); /** * @deprecated use core.summary */ var summary_2 = __nccwpck_require__(81327); Object.defineProperty(exports, "markdownSummary", ({ enumerable: true, get: function () { return summary_2.markdownSummary; } })); /** * Path exports */ var path_utils_1 = __nccwpck_require__(2981); Object.defineProperty(exports, "toPosixPath", ({ enumerable: true, get: function () { return path_utils_1.toPosixPath; } })); Object.defineProperty(exports, "toWin32Path", ({ enumerable: true, get: function () { return path_utils_1.toWin32Path; } })); Object.defineProperty(exports, "toPlatformPath", ({ enumerable: true, get: function () { return path_utils_1.toPlatformPath; } })); //# sourceMappingURL=core.js.map /***/ }), /***/ 717: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; // For internal use, subject to change. var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } }); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.prepareKeyValueMessage = exports.issueFileCommand = void 0; // We use any as a valid input type /* eslint-disable @typescript-eslint/no-explicit-any */ const fs = __importStar(__nccwpck_require__(57147)); const os = __importStar(__nccwpck_require__(22037)); const uuid_1 = __nccwpck_require__(78974); const utils_1 = __nccwpck_require__(5278); function issueFileCommand(command, message) { const filePath = process.env[`GITHUB_${command}`]; if (!filePath) { throw new Error(`Unable to find environment variable for file command ${command}`); } if (!fs.existsSync(filePath)) { throw new Error(`Missing file at path: ${filePath}`); } fs.appendFileSync(filePath, `${utils_1.toCommandValue(message)}${os.EOL}`, { encoding: 'utf8' }); } exports.issueFileCommand = issueFileCommand; function prepareKeyValueMessage(key, value) { const delimiter = `ghadelimiter_${uuid_1.v4()}`; const convertedValue = utils_1.toCommandValue(value); // These should realistically never happen, but just in case someone finds a // way to exploit uuid generation let's not allow keys or values that contain // the delimiter. if (key.includes(delimiter)) { throw new Error(`Unexpected input: name should not contain the delimiter "${delimiter}"`); } if (convertedValue.includes(delimiter)) { throw new Error(`Unexpected input: value should not contain the delimiter "${delimiter}"`); } return `${key}<<${delimiter}${os.EOL}${convertedValue}${os.EOL}${delimiter}`; } exports.prepareKeyValueMessage = prepareKeyValueMessage; //# sourceMappingURL=file-command.js.map /***/ }), /***/ 98041: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.OidcClient = void 0; const http_client_1 = __nccwpck_require__(11404); const auth_1 = __nccwpck_require__(36758); const core_1 = __nccwpck_require__(42186); class OidcClient { static createHttpClient(allowRetry = true, maxRetry = 10) { const requestOptions = { allowRetries: allowRetry, maxRetries: maxRetry }; return new http_client_1.HttpClient('actions/oidc-client', [new auth_1.BearerCredentialHandler(OidcClient.getRequestToken())], requestOptions); } static getRequestToken() { const token = process.env['ACTIONS_ID_TOKEN_REQUEST_TOKEN']; if (!token) { throw new Error('Unable to get ACTIONS_ID_TOKEN_REQUEST_TOKEN env variable'); } return token; } static getIDTokenUrl() { const runtimeUrl = process.env['ACTIONS_ID_TOKEN_REQUEST_URL']; if (!runtimeUrl) { throw new Error('Unable to get ACTIONS_ID_TOKEN_REQUEST_URL env variable'); } return runtimeUrl; } static getCall(id_token_url) { var _a; return __awaiter(this, void 0, void 0, function* () { const httpclient = OidcClient.createHttpClient(); const res = yield httpclient .getJson(id_token_url) .catch(error => { throw new Error(`Failed to get ID Token. \n Error Code : ${error.statusCode}\n Error Message: ${error.result.message}`); }); const id_token = (_a = res.result) === null || _a === void 0 ? void 0 : _a.value; if (!id_token) { throw new Error('Response json body do not have ID Token field'); } return id_token; }); } static getIDToken(audience) { return __awaiter(this, void 0, void 0, function* () { try { // New ID Token is requested from action service let id_token_url = OidcClient.getIDTokenUrl(); if (audience) { const encodedAudience = encodeURIComponent(audience); id_token_url = `${id_token_url}&audience=${encodedAudience}`; } core_1.debug(`ID token url is ${id_token_url}`); const id_token = yield OidcClient.getCall(id_token_url); core_1.setSecret(id_token); return id_token; } catch (error) { throw new Error(`Error message: ${error.message}`); } }); } } exports.OidcClient = OidcClient; //# sourceMappingURL=oidc-utils.js.map /***/ }), /***/ 2981: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } }); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.toPlatformPath = exports.toWin32Path = exports.toPosixPath = void 0; const path = __importStar(__nccwpck_require__(71017)); /** * toPosixPath converts the given path to the posix form. On Windows, \\ will be * replaced with /. * * @param pth. Path to transform. * @return string Posix path. */ function toPosixPath(pth) { return pth.replace(/[\\]/g, '/'); } exports.toPosixPath = toPosixPath; /** * toWin32Path converts the given path to the win32 form. On Linux, / will be * replaced with \\. * * @param pth. Path to transform. * @return string Win32 path. */ function toWin32Path(pth) { return pth.replace(/[/]/g, '\\'); } exports.toWin32Path = toWin32Path; /** * toPlatformPath converts the given path to a platform-specific path. It does * this by replacing instances of / and \ with the platform-specific path * separator. * * @param pth The path to platformize. * @return string The platform-specific path. */ function toPlatformPath(pth) { return pth.replace(/[/\\]/g, path.sep); } exports.toPlatformPath = toPlatformPath; //# sourceMappingURL=path-utils.js.map /***/ }), /***/ 81327: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.summary = exports.markdownSummary = exports.SUMMARY_DOCS_URL = exports.SUMMARY_ENV_VAR = void 0; const os_1 = __nccwpck_require__(22037); const fs_1 = __nccwpck_require__(57147); const { access, appendFile, writeFile } = fs_1.promises; exports.SUMMARY_ENV_VAR = 'GITHUB_STEP_SUMMARY'; exports.SUMMARY_DOCS_URL = 'https://docs.github.com/actions/using-workflows/workflow-commands-for-github-actions#adding-a-job-summary'; class Summary { constructor() { this._buffer = ''; } /** * Finds the summary file path from the environment, rejects if env var is not found or file does not exist * Also checks r/w permissions. * * @returns step summary file path */ filePath() { return __awaiter(this, void 0, void 0, function* () { if (this._filePath) { return this._filePath; } const pathFromEnv = process.env[exports.SUMMARY_ENV_VAR]; if (!pathFromEnv) { throw new Error(`Unable to find environment variable for $${exports.SUMMARY_ENV_VAR}. Check if your runtime environment supports job summaries.`); } try { yield access(pathFromEnv, fs_1.constants.R_OK | fs_1.constants.W_OK); } catch (_a) { throw new Error(`Unable to access summary file: '${pathFromEnv}'. Check if the file has correct read/write permissions.`); } this._filePath = pathFromEnv; return this._filePath; }); } /** * Wraps content in an HTML tag, adding any HTML attributes * * @param {string} tag HTML tag to wrap * @param {string | null} content content within the tag * @param {[attribute: string]: string} attrs key-value list of HTML attributes to add * * @returns {string} content wrapped in HTML element */ wrap(tag, content, attrs = {}) { const htmlAttrs = Object.entries(attrs) .map(([key, value]) => ` ${key}="${value}"`) .join(''); if (!content) { return `<${tag}${htmlAttrs}>`; } return `<${tag}${htmlAttrs}>${content}`; } /** * Writes text in the buffer to the summary buffer file and empties buffer. Will append by default. * * @param {SummaryWriteOptions} [options] (optional) options for write operation * * @returns {Promise} summary instance */ write(options) { return __awaiter(this, void 0, void 0, function* () { const overwrite = !!(options === null || options === void 0 ? void 0 : options.overwrite); const filePath = yield this.filePath(); const writeFunc = overwrite ? writeFile : appendFile; yield writeFunc(filePath, this._buffer, { encoding: 'utf8' }); return this.emptyBuffer(); }); } /** * Clears the summary buffer and wipes the summary file * * @returns {Summary} summary instance */ clear() { return __awaiter(this, void 0, void 0, function* () { return this.emptyBuffer().write({ overwrite: true }); }); } /** * Returns the current summary buffer as a string * * @returns {string} string of summary buffer */ stringify() { return this._buffer; } /** * If the summary buffer is empty * * @returns {boolen} true if the buffer is empty */ isEmptyBuffer() { return this._buffer.length === 0; } /** * Resets the summary buffer without writing to summary file * * @returns {Summary} summary instance */ emptyBuffer() { this._buffer = ''; return this; } /** * Adds raw text to the summary buffer * * @param {string} text content to add * @param {boolean} [addEOL=false] (optional) append an EOL to the raw text (default: false) * * @returns {Summary} summary instance */ addRaw(text, addEOL = false) { this._buffer += text; return addEOL ? this.addEOL() : this; } /** * Adds the operating system-specific end-of-line marker to the buffer * * @returns {Summary} summary instance */ addEOL() { return this.addRaw(os_1.EOL); } /** * Adds an HTML codeblock to the summary buffer * * @param {string} code content to render within fenced code block * @param {string} lang (optional) language to syntax highlight code * * @returns {Summary} summary instance */ addCodeBlock(code, lang) { const attrs = Object.assign({}, (lang && { lang })); const element = this.wrap('pre', this.wrap('code', code), attrs); return this.addRaw(element).addEOL(); } /** * Adds an HTML list to the summary buffer * * @param {string[]} items list of items to render * @param {boolean} [ordered=false] (optional) if the rendered list should be ordered or not (default: false) * * @returns {Summary} summary instance */ addList(items, ordered = false) { const tag = ordered ? 'ol' : 'ul'; const listItems = items.map(item => this.wrap('li', item)).join(''); const element = this.wrap(tag, listItems); return this.addRaw(element).addEOL(); } /** * Adds an HTML table to the summary buffer * * @param {SummaryTableCell[]} rows table rows * * @returns {Summary} summary instance */ addTable(rows) { const tableBody = rows .map(row => { const cells = row .map(cell => { if (typeof cell === 'string') { return this.wrap('td', cell); } const { header, data, colspan, rowspan } = cell; const tag = header ? 'th' : 'td'; const attrs = Object.assign(Object.assign({}, (colspan && { colspan })), (rowspan && { rowspan })); return this.wrap(tag, data, attrs); }) .join(''); return this.wrap('tr', cells); }) .join(''); const element = this.wrap('table', tableBody); return this.addRaw(element).addEOL(); } /** * Adds a collapsable HTML details element to the summary buffer * * @param {string} label text for the closed state * @param {string} content collapsable content * * @returns {Summary} summary instance */ addDetails(label, content) { const element = this.wrap('details', this.wrap('summary', label) + content); return this.addRaw(element).addEOL(); } /** * Adds an HTML image tag to the summary buffer * * @param {string} src path to the image you to embed * @param {string} alt text description of the image * @param {SummaryImageOptions} options (optional) addition image attributes * * @returns {Summary} summary instance */ addImage(src, alt, options) { const { width, height } = options || {}; const attrs = Object.assign(Object.assign({}, (width && { width })), (height && { height })); const element = this.wrap('img', null, Object.assign({ src, alt }, attrs)); return this.addRaw(element).addEOL(); } /** * Adds an HTML section heading element * * @param {string} text heading text * @param {number | string} [level=1] (optional) the heading level, default: 1 * * @returns {Summary} summary instance */ addHeading(text, level) { const tag = `h${level}`; const allowedTag = ['h1', 'h2', 'h3', 'h4', 'h5', 'h6'].includes(tag) ? tag : 'h1'; const element = this.wrap(allowedTag, text); return this.addRaw(element).addEOL(); } /** * Adds an HTML thematic break (
) to the summary buffer * * @returns {Summary} summary instance */ addSeparator() { const element = this.wrap('hr', null); return this.addRaw(element).addEOL(); } /** * Adds an HTML line break (
) to the summary buffer * * @returns {Summary} summary instance */ addBreak() { const element = this.wrap('br', null); return this.addRaw(element).addEOL(); } /** * Adds an HTML blockquote to the summary buffer * * @param {string} text quote text * @param {string} cite (optional) citation url * * @returns {Summary} summary instance */ addQuote(text, cite) { const attrs = Object.assign({}, (cite && { cite })); const element = this.wrap('blockquote', text, attrs); return this.addRaw(element).addEOL(); } /** * Adds an HTML anchor tag to the summary buffer * * @param {string} text link text/content * @param {string} href hyperlink * * @returns {Summary} summary instance */ addLink(text, href) { const element = this.wrap('a', text, { href }); return this.addRaw(element).addEOL(); } } const _summary = new Summary(); /** * @deprecated use `core.summary` */ exports.markdownSummary = _summary; exports.summary = _summary; //# sourceMappingURL=summary.js.map /***/ }), /***/ 5278: /***/ ((__unused_webpack_module, exports) => { "use strict"; // We use any as a valid input type /* eslint-disable @typescript-eslint/no-explicit-any */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports.toCommandProperties = exports.toCommandValue = void 0; /** * Sanitizes an input into a string so it can be passed into issueCommand safely * @param input input to sanitize into a string */ function toCommandValue(input) { if (input === null || input === undefined) { return ''; } else if (typeof input === 'string' || input instanceof String) { return input; } return JSON.stringify(input); } exports.toCommandValue = toCommandValue; /** * * @param annotationProperties * @returns The command properties to send with the actual annotation command * See IssueCommandProperties: https://github.com/actions/runner/blob/main/src/Runner.Worker/ActionCommandManager.cs#L646 */ function toCommandProperties(annotationProperties) { if (!Object.keys(annotationProperties).length) { return {}; } return { title: annotationProperties.title, file: annotationProperties.file, line: annotationProperties.startLine, endLine: annotationProperties.endLine, col: annotationProperties.startColumn, endColumn: annotationProperties.endColumn }; } exports.toCommandProperties = toCommandProperties; //# sourceMappingURL=utils.js.map /***/ }), /***/ 36758: /***/ (function(__unused_webpack_module, exports) { "use strict"; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.PersonalAccessTokenCredentialHandler = exports.BearerCredentialHandler = exports.BasicCredentialHandler = void 0; class BasicCredentialHandler { constructor(username, password) { this.username = username; this.password = password; } prepareRequest(options) { if (!options.headers) { throw Error('The request has no headers'); } options.headers['Authorization'] = `Basic ${Buffer.from(`${this.username}:${this.password}`).toString('base64')}`; } // This handler cannot handle 401 canHandleAuthentication() { return false; } handleAuthentication() { return __awaiter(this, void 0, void 0, function* () { throw new Error('not implemented'); }); } } exports.BasicCredentialHandler = BasicCredentialHandler; class BearerCredentialHandler { constructor(token) { this.token = token; } // currently implements pre-authorization // TODO: support preAuth = false where it hooks on 401 prepareRequest(options) { if (!options.headers) { throw Error('The request has no headers'); } options.headers['Authorization'] = `Bearer ${this.token}`; } // This handler cannot handle 401 canHandleAuthentication() { return false; } handleAuthentication() { return __awaiter(this, void 0, void 0, function* () { throw new Error('not implemented'); }); } } exports.BearerCredentialHandler = BearerCredentialHandler; class PersonalAccessTokenCredentialHandler { constructor(token) { this.token = token; } // currently implements pre-authorization // TODO: support preAuth = false where it hooks on 401 prepareRequest(options) { if (!options.headers) { throw Error('The request has no headers'); } options.headers['Authorization'] = `Basic ${Buffer.from(`PAT:${this.token}`).toString('base64')}`; } // This handler cannot handle 401 canHandleAuthentication() { return false; } handleAuthentication() { return __awaiter(this, void 0, void 0, function* () { throw new Error('not implemented'); }); } } exports.PersonalAccessTokenCredentialHandler = PersonalAccessTokenCredentialHandler; //# sourceMappingURL=auth.js.map /***/ }), /***/ 11404: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; /* eslint-disable @typescript-eslint/no-explicit-any */ var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } }); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.HttpClient = exports.isHttps = exports.HttpClientResponse = exports.HttpClientError = exports.getProxyUrl = exports.MediaTypes = exports.Headers = exports.HttpCodes = void 0; const http = __importStar(__nccwpck_require__(13685)); const https = __importStar(__nccwpck_require__(95687)); const pm = __importStar(__nccwpck_require__(72843)); const tunnel = __importStar(__nccwpck_require__(74294)); var HttpCodes; (function (HttpCodes) { HttpCodes[HttpCodes["OK"] = 200] = "OK"; HttpCodes[HttpCodes["MultipleChoices"] = 300] = "MultipleChoices"; HttpCodes[HttpCodes["MovedPermanently"] = 301] = "MovedPermanently"; HttpCodes[HttpCodes["ResourceMoved"] = 302] = "ResourceMoved"; HttpCodes[HttpCodes["SeeOther"] = 303] = "SeeOther"; HttpCodes[HttpCodes["NotModified"] = 304] = "NotModified"; HttpCodes[HttpCodes["UseProxy"] = 305] = "UseProxy"; HttpCodes[HttpCodes["SwitchProxy"] = 306] = "SwitchProxy"; HttpCodes[HttpCodes["TemporaryRedirect"] = 307] = "TemporaryRedirect"; HttpCodes[HttpCodes["PermanentRedirect"] = 308] = "PermanentRedirect"; HttpCodes[HttpCodes["BadRequest"] = 400] = "BadRequest"; HttpCodes[HttpCodes["Unauthorized"] = 401] = "Unauthorized"; HttpCodes[HttpCodes["PaymentRequired"] = 402] = "PaymentRequired"; HttpCodes[HttpCodes["Forbidden"] = 403] = "Forbidden"; HttpCodes[HttpCodes["NotFound"] = 404] = "NotFound"; HttpCodes[HttpCodes["MethodNotAllowed"] = 405] = "MethodNotAllowed"; HttpCodes[HttpCodes["NotAcceptable"] = 406] = "NotAcceptable"; HttpCodes[HttpCodes["ProxyAuthenticationRequired"] = 407] = "ProxyAuthenticationRequired"; HttpCodes[HttpCodes["RequestTimeout"] = 408] = "RequestTimeout"; HttpCodes[HttpCodes["Conflict"] = 409] = "Conflict"; HttpCodes[HttpCodes["Gone"] = 410] = "Gone"; HttpCodes[HttpCodes["TooManyRequests"] = 429] = "TooManyRequests"; HttpCodes[HttpCodes["InternalServerError"] = 500] = "InternalServerError"; HttpCodes[HttpCodes["NotImplemented"] = 501] = "NotImplemented"; HttpCodes[HttpCodes["BadGateway"] = 502] = "BadGateway"; HttpCodes[HttpCodes["ServiceUnavailable"] = 503] = "ServiceUnavailable"; HttpCodes[HttpCodes["GatewayTimeout"] = 504] = "GatewayTimeout"; })(HttpCodes = exports.HttpCodes || (exports.HttpCodes = {})); var Headers; (function (Headers) { Headers["Accept"] = "accept"; Headers["ContentType"] = "content-type"; })(Headers = exports.Headers || (exports.Headers = {})); var MediaTypes; (function (MediaTypes) { MediaTypes["ApplicationJson"] = "application/json"; })(MediaTypes = exports.MediaTypes || (exports.MediaTypes = {})); /** * Returns the proxy URL, depending upon the supplied url and proxy environment variables. * @param serverUrl The server URL where the request will be sent. For example, https://api.github.com */ function getProxyUrl(serverUrl) { const proxyUrl = pm.getProxyUrl(new URL(serverUrl)); return proxyUrl ? proxyUrl.href : ''; } exports.getProxyUrl = getProxyUrl; const HttpRedirectCodes = [ HttpCodes.MovedPermanently, HttpCodes.ResourceMoved, HttpCodes.SeeOther, HttpCodes.TemporaryRedirect, HttpCodes.PermanentRedirect ]; const HttpResponseRetryCodes = [ HttpCodes.BadGateway, HttpCodes.ServiceUnavailable, HttpCodes.GatewayTimeout ]; const RetryableHttpVerbs = ['OPTIONS', 'GET', 'DELETE', 'HEAD']; const ExponentialBackoffCeiling = 10; const ExponentialBackoffTimeSlice = 5; class HttpClientError extends Error { constructor(message, statusCode) { super(message); this.name = 'HttpClientError'; this.statusCode = statusCode; Object.setPrototypeOf(this, HttpClientError.prototype); } } exports.HttpClientError = HttpClientError; class HttpClientResponse { constructor(message) { this.message = message; } readBody() { return __awaiter(this, void 0, void 0, function* () { return new Promise((resolve) => __awaiter(this, void 0, void 0, function* () { let output = Buffer.alloc(0); this.message.on('data', (chunk) => { output = Buffer.concat([output, chunk]); }); this.message.on('end', () => { resolve(output.toString()); }); })); }); } } exports.HttpClientResponse = HttpClientResponse; function isHttps(requestUrl) { const parsedUrl = new URL(requestUrl); return parsedUrl.protocol === 'https:'; } exports.isHttps = isHttps; class HttpClient { constructor(userAgent, handlers, requestOptions) { this._ignoreSslError = false; this._allowRedirects = true; this._allowRedirectDowngrade = false; this._maxRedirects = 50; this._allowRetries = false; this._maxRetries = 1; this._keepAlive = false; this._disposed = false; this.userAgent = userAgent; this.handlers = handlers || []; this.requestOptions = requestOptions; if (requestOptions) { if (requestOptions.ignoreSslError != null) { this._ignoreSslError = requestOptions.ignoreSslError; } this._socketTimeout = requestOptions.socketTimeout; if (requestOptions.allowRedirects != null) { this._allowRedirects = requestOptions.allowRedirects; } if (requestOptions.allowRedirectDowngrade != null) { this._allowRedirectDowngrade = requestOptions.allowRedirectDowngrade; } if (requestOptions.maxRedirects != null) { this._maxRedirects = Math.max(requestOptions.maxRedirects, 0); } if (requestOptions.keepAlive != null) { this._keepAlive = requestOptions.keepAlive; } if (requestOptions.allowRetries != null) { this._allowRetries = requestOptions.allowRetries; } if (requestOptions.maxRetries != null) { this._maxRetries = requestOptions.maxRetries; } } } options(requestUrl, additionalHeaders) { return __awaiter(this, void 0, void 0, function* () { return this.request('OPTIONS', requestUrl, null, additionalHeaders || {}); }); } get(requestUrl, additionalHeaders) { return __awaiter(this, void 0, void 0, function* () { return this.request('GET', requestUrl, null, additionalHeaders || {}); }); } del(requestUrl, additionalHeaders) { return __awaiter(this, void 0, void 0, function* () { return this.request('DELETE', requestUrl, null, additionalHeaders || {}); }); } post(requestUrl, data, additionalHeaders) { return __awaiter(this, void 0, void 0, function* () { return this.request('POST', requestUrl, data, additionalHeaders || {}); }); } patch(requestUrl, data, additionalHeaders) { return __awaiter(this, void 0, void 0, function* () { return this.request('PATCH', requestUrl, data, additionalHeaders || {}); }); } put(requestUrl, data, additionalHeaders) { return __awaiter(this, void 0, void 0, function* () { return this.request('PUT', requestUrl, data, additionalHeaders || {}); }); } head(requestUrl, additionalHeaders) { return __awaiter(this, void 0, void 0, function* () { return this.request('HEAD', requestUrl, null, additionalHeaders || {}); }); } sendStream(verb, requestUrl, stream, additionalHeaders) { return __awaiter(this, void 0, void 0, function* () { return this.request(verb, requestUrl, stream, additionalHeaders); }); } /** * Gets a typed object from an endpoint * Be aware that not found returns a null. Other errors (4xx, 5xx) reject the promise */ getJson(requestUrl, additionalHeaders = {}) { return __awaiter(this, void 0, void 0, function* () { additionalHeaders[Headers.Accept] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.Accept, MediaTypes.ApplicationJson); const res = yield this.get(requestUrl, additionalHeaders); return this._processResponse(res, this.requestOptions); }); } postJson(requestUrl, obj, additionalHeaders = {}) { return __awaiter(this, void 0, void 0, function* () { const data = JSON.stringify(obj, null, 2); additionalHeaders[Headers.Accept] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.Accept, MediaTypes.ApplicationJson); additionalHeaders[Headers.ContentType] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.ContentType, MediaTypes.ApplicationJson); const res = yield this.post(requestUrl, data, additionalHeaders); return this._processResponse(res, this.requestOptions); }); } putJson(requestUrl, obj, additionalHeaders = {}) { return __awaiter(this, void 0, void 0, function* () { const data = JSON.stringify(obj, null, 2); additionalHeaders[Headers.Accept] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.Accept, MediaTypes.ApplicationJson); additionalHeaders[Headers.ContentType] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.ContentType, MediaTypes.ApplicationJson); const res = yield this.put(requestUrl, data, additionalHeaders); return this._processResponse(res, this.requestOptions); }); } patchJson(requestUrl, obj, additionalHeaders = {}) { return __awaiter(this, void 0, void 0, function* () { const data = JSON.stringify(obj, null, 2); additionalHeaders[Headers.Accept] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.Accept, MediaTypes.ApplicationJson); additionalHeaders[Headers.ContentType] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.ContentType, MediaTypes.ApplicationJson); const res = yield this.patch(requestUrl, data, additionalHeaders); return this._processResponse(res, this.requestOptions); }); } /** * Makes a raw http request. * All other methods such as get, post, patch, and request ultimately call this. * Prefer get, del, post and patch */ request(verb, requestUrl, data, headers) { return __awaiter(this, void 0, void 0, function* () { if (this._disposed) { throw new Error('Client has already been disposed.'); } const parsedUrl = new URL(requestUrl); let info = this._prepareRequest(verb, parsedUrl, headers); // Only perform retries on reads since writes may not be idempotent. const maxTries = this._allowRetries && RetryableHttpVerbs.includes(verb) ? this._maxRetries + 1 : 1; let numTries = 0; let response; do { response = yield this.requestRaw(info, data); // Check if it's an authentication challenge if (response && response.message && response.message.statusCode === HttpCodes.Unauthorized) { let authenticationHandler; for (const handler of this.handlers) { if (handler.canHandleAuthentication(response)) { authenticationHandler = handler; break; } } if (authenticationHandler) { return authenticationHandler.handleAuthentication(this, info, data); } else { // We have received an unauthorized response but have no handlers to handle it. // Let the response return to the caller. return response; } } let redirectsRemaining = this._maxRedirects; while (response.message.statusCode && HttpRedirectCodes.includes(response.message.statusCode) && this._allowRedirects && redirectsRemaining > 0) { const redirectUrl = response.message.headers['location']; if (!redirectUrl) { // if there's no location to redirect to, we won't break; } const parsedRedirectUrl = new URL(redirectUrl); if (parsedUrl.protocol === 'https:' && parsedUrl.protocol !== parsedRedirectUrl.protocol && !this._allowRedirectDowngrade) { throw new Error('Redirect from HTTPS to HTTP protocol. This downgrade is not allowed for security reasons. If you want to allow this behavior, set the allowRedirectDowngrade option to true.'); } // we need to finish reading the response before reassigning response // which will leak the open socket. yield response.readBody(); // strip authorization header if redirected to a different hostname if (parsedRedirectUrl.hostname !== parsedUrl.hostname) { for (const header in headers) { // header names are case insensitive if (header.toLowerCase() === 'authorization') { delete headers[header]; } } } // let's make the request with the new redirectUrl info = this._prepareRequest(verb, parsedRedirectUrl, headers); response = yield this.requestRaw(info, data); redirectsRemaining--; } if (!response.message.statusCode || !HttpResponseRetryCodes.includes(response.message.statusCode)) { // If not a retry code, return immediately instead of retrying return response; } numTries += 1; if (numTries < maxTries) { yield response.readBody(); yield this._performExponentialBackoff(numTries); } } while (numTries < maxTries); return response; }); } /** * Needs to be called if keepAlive is set to true in request options. */ dispose() { if (this._agent) { this._agent.destroy(); } this._disposed = true; } /** * Raw request. * @param info * @param data */ requestRaw(info, data) { return __awaiter(this, void 0, void 0, function* () { return new Promise((resolve, reject) => { function callbackForResult(err, res) { if (err) { reject(err); } else if (!res) { // If `err` is not passed, then `res` must be passed. reject(new Error('Unknown error')); } else { resolve(res); } } this.requestRawWithCallback(info, data, callbackForResult); }); }); } /** * Raw request with callback. * @param info * @param data * @param onResult */ requestRawWithCallback(info, data, onResult) { if (typeof data === 'string') { if (!info.options.headers) { info.options.headers = {}; } info.options.headers['Content-Length'] = Buffer.byteLength(data, 'utf8'); } let callbackCalled = false; function handleResult(err, res) { if (!callbackCalled) { callbackCalled = true; onResult(err, res); } } const req = info.httpModule.request(info.options, (msg) => { const res = new HttpClientResponse(msg); handleResult(undefined, res); }); let socket; req.on('socket', sock => { socket = sock; }); // If we ever get disconnected, we want the socket to timeout eventually req.setTimeout(this._socketTimeout || 3 * 60000, () => { if (socket) { socket.end(); } handleResult(new Error(`Request timeout: ${info.options.path}`)); }); req.on('error', function (err) { // err has statusCode property // res should have headers handleResult(err); }); if (data && typeof data === 'string') { req.write(data, 'utf8'); } if (data && typeof data !== 'string') { data.on('close', function () { req.end(); }); data.pipe(req); } else { req.end(); } } /** * Gets an http agent. This function is useful when you need an http agent that handles * routing through a proxy server - depending upon the url and proxy environment variables. * @param serverUrl The server URL where the request will be sent. For example, https://api.github.com */ getAgent(serverUrl) { const parsedUrl = new URL(serverUrl); return this._getAgent(parsedUrl); } _prepareRequest(method, requestUrl, headers) { const info = {}; info.parsedUrl = requestUrl; const usingSsl = info.parsedUrl.protocol === 'https:'; info.httpModule = usingSsl ? https : http; const defaultPort = usingSsl ? 443 : 80; info.options = {}; info.options.host = info.parsedUrl.hostname; info.options.port = info.parsedUrl.port ? parseInt(info.parsedUrl.port) : defaultPort; info.options.path = (info.parsedUrl.pathname || '') + (info.parsedUrl.search || ''); info.options.method = method; info.options.headers = this._mergeHeaders(headers); if (this.userAgent != null) { info.options.headers['user-agent'] = this.userAgent; } info.options.agent = this._getAgent(info.parsedUrl); // gives handlers an opportunity to participate if (this.handlers) { for (const handler of this.handlers) { handler.prepareRequest(info.options); } } return info; } _mergeHeaders(headers) { if (this.requestOptions && this.requestOptions.headers) { return Object.assign({}, lowercaseKeys(this.requestOptions.headers), lowercaseKeys(headers || {})); } return lowercaseKeys(headers || {}); } _getExistingOrDefaultHeader(additionalHeaders, header, _default) { let clientHeader; if (this.requestOptions && this.requestOptions.headers) { clientHeader = lowercaseKeys(this.requestOptions.headers)[header]; } return additionalHeaders[header] || clientHeader || _default; } _getAgent(parsedUrl) { let agent; const proxyUrl = pm.getProxyUrl(parsedUrl); const useProxy = proxyUrl && proxyUrl.hostname; if (this._keepAlive && useProxy) { agent = this._proxyAgent; } if (this._keepAlive && !useProxy) { agent = this._agent; } // if agent is already assigned use that agent. if (agent) { return agent; } const usingSsl = parsedUrl.protocol === 'https:'; let maxSockets = 100; if (this.requestOptions) { maxSockets = this.requestOptions.maxSockets || http.globalAgent.maxSockets; } // This is `useProxy` again, but we need to check `proxyURl` directly for TypeScripts's flow analysis. if (proxyUrl && proxyUrl.hostname) { const agentOptions = { maxSockets, keepAlive: this._keepAlive, proxy: Object.assign(Object.assign({}, ((proxyUrl.username || proxyUrl.password) && { proxyAuth: `${proxyUrl.username}:${proxyUrl.password}` })), { host: proxyUrl.hostname, port: proxyUrl.port }) }; let tunnelAgent; const overHttps = proxyUrl.protocol === 'https:'; if (usingSsl) { tunnelAgent = overHttps ? tunnel.httpsOverHttps : tunnel.httpsOverHttp; } else { tunnelAgent = overHttps ? tunnel.httpOverHttps : tunnel.httpOverHttp; } agent = tunnelAgent(agentOptions); this._proxyAgent = agent; } // if reusing agent across request and tunneling agent isn't assigned create a new agent if (this._keepAlive && !agent) { const options = { keepAlive: this._keepAlive, maxSockets }; agent = usingSsl ? new https.Agent(options) : new http.Agent(options); this._agent = agent; } // if not using private agent and tunnel agent isn't setup then use global agent if (!agent) { agent = usingSsl ? https.globalAgent : http.globalAgent; } if (usingSsl && this._ignoreSslError) { // we don't want to set NODE_TLS_REJECT_UNAUTHORIZED=0 since that will affect request for entire process // http.RequestOptions doesn't expose a way to modify RequestOptions.agent.options // we have to cast it to any and change it directly agent.options = Object.assign(agent.options || {}, { rejectUnauthorized: false }); } return agent; } _performExponentialBackoff(retryNumber) { return __awaiter(this, void 0, void 0, function* () { retryNumber = Math.min(ExponentialBackoffCeiling, retryNumber); const ms = ExponentialBackoffTimeSlice * Math.pow(2, retryNumber); return new Promise(resolve => setTimeout(() => resolve(), ms)); }); } _processResponse(res, options) { return __awaiter(this, void 0, void 0, function* () { return new Promise((resolve, reject) => __awaiter(this, void 0, void 0, function* () { const statusCode = res.message.statusCode || 0; const response = { statusCode, result: null, headers: {} }; // not found leads to null obj returned if (statusCode === HttpCodes.NotFound) { resolve(response); } // get the result from the body function dateTimeDeserializer(key, value) { if (typeof value === 'string') { const a = new Date(value); if (!isNaN(a.valueOf())) { return a; } } return value; } let obj; let contents; try { contents = yield res.readBody(); if (contents && contents.length > 0) { if (options && options.deserializeDates) { obj = JSON.parse(contents, dateTimeDeserializer); } else { obj = JSON.parse(contents); } response.result = obj; } response.headers = res.message.headers; } catch (err) { // Invalid resource (contents not json); leaving result obj null } // note that 3xx redirects are handled by the http layer. if (statusCode > 299) { let msg; // if exception/error in body, attempt to get better error if (obj && obj.message) { msg = obj.message; } else if (contents && contents.length > 0) { // it may be the case that the exception is in the body message as string msg = contents; } else { msg = `Failed request: (${statusCode})`; } const err = new HttpClientError(msg, statusCode); err.result = response.result; reject(err); } else { resolve(response); } })); }); } } exports.HttpClient = HttpClient; const lowercaseKeys = (obj) => Object.keys(obj).reduce((c, k) => ((c[k.toLowerCase()] = obj[k]), c), {}); //# sourceMappingURL=index.js.map /***/ }), /***/ 72843: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.checkBypass = exports.getProxyUrl = void 0; function getProxyUrl(reqUrl) { const usingSsl = reqUrl.protocol === 'https:'; if (checkBypass(reqUrl)) { return undefined; } const proxyVar = (() => { if (usingSsl) { return process.env['https_proxy'] || process.env['HTTPS_PROXY']; } else { return process.env['http_proxy'] || process.env['HTTP_PROXY']; } })(); if (proxyVar) { return new URL(proxyVar); } else { return undefined; } } exports.getProxyUrl = getProxyUrl; function checkBypass(reqUrl) { if (!reqUrl.hostname) { return false; } const noProxy = process.env['no_proxy'] || process.env['NO_PROXY'] || ''; if (!noProxy) { return false; } // Determine the request port let reqPort; if (reqUrl.port) { reqPort = Number(reqUrl.port); } else if (reqUrl.protocol === 'http:') { reqPort = 80; } else if (reqUrl.protocol === 'https:') { reqPort = 443; } // Format the request hostname and hostname with port const upperReqHosts = [reqUrl.hostname.toUpperCase()]; if (typeof reqPort === 'number') { upperReqHosts.push(`${upperReqHosts[0]}:${reqPort}`); } // Compare request host against noproxy for (const upperNoProxyItem of noProxy .split(',') .map(x => x.trim().toUpperCase()) .filter(x => x)) { if (upperReqHosts.some(x => x === upperNoProxyItem)) { return true; } } return false; } exports.checkBypass = checkBypass; //# sourceMappingURL=proxy.js.map /***/ }), /***/ 78974: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); Object.defineProperty(exports, "v1", ({ enumerable: true, get: function () { return _v.default; } })); Object.defineProperty(exports, "v3", ({ enumerable: true, get: function () { return _v2.default; } })); Object.defineProperty(exports, "v4", ({ enumerable: true, get: function () { return _v3.default; } })); Object.defineProperty(exports, "v5", ({ enumerable: true, get: function () { return _v4.default; } })); Object.defineProperty(exports, "NIL", ({ enumerable: true, get: function () { return _nil.default; } })); Object.defineProperty(exports, "version", ({ enumerable: true, get: function () { return _version.default; } })); Object.defineProperty(exports, "validate", ({ enumerable: true, get: function () { return _validate.default; } })); Object.defineProperty(exports, "stringify", ({ enumerable: true, get: function () { return _stringify.default; } })); Object.defineProperty(exports, "parse", ({ enumerable: true, get: function () { return _parse.default; } })); var _v = _interopRequireDefault(__nccwpck_require__(81595)); var _v2 = _interopRequireDefault(__nccwpck_require__(26993)); var _v3 = _interopRequireDefault(__nccwpck_require__(51472)); var _v4 = _interopRequireDefault(__nccwpck_require__(16217)); var _nil = _interopRequireDefault(__nccwpck_require__(32381)); var _version = _interopRequireDefault(__nccwpck_require__(40427)); var _validate = _interopRequireDefault(__nccwpck_require__(92609)); var _stringify = _interopRequireDefault(__nccwpck_require__(61458)); var _parse = _interopRequireDefault(__nccwpck_require__(26385)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } /***/ }), /***/ 5842: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _crypto = _interopRequireDefault(__nccwpck_require__(6113)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } function md5(bytes) { if (Array.isArray(bytes)) { bytes = Buffer.from(bytes); } else if (typeof bytes === 'string') { bytes = Buffer.from(bytes, 'utf8'); } return _crypto.default.createHash('md5').update(bytes).digest(); } var _default = md5; exports["default"] = _default; /***/ }), /***/ 32381: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _default = '00000000-0000-0000-0000-000000000000'; exports["default"] = _default; /***/ }), /***/ 26385: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _validate = _interopRequireDefault(__nccwpck_require__(92609)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } function parse(uuid) { if (!(0, _validate.default)(uuid)) { throw TypeError('Invalid UUID'); } let v; const arr = new Uint8Array(16); // Parse ########-....-....-....-............ arr[0] = (v = parseInt(uuid.slice(0, 8), 16)) >>> 24; arr[1] = v >>> 16 & 0xff; arr[2] = v >>> 8 & 0xff; arr[3] = v & 0xff; // Parse ........-####-....-....-............ arr[4] = (v = parseInt(uuid.slice(9, 13), 16)) >>> 8; arr[5] = v & 0xff; // Parse ........-....-####-....-............ arr[6] = (v = parseInt(uuid.slice(14, 18), 16)) >>> 8; arr[7] = v & 0xff; // Parse ........-....-....-####-............ arr[8] = (v = parseInt(uuid.slice(19, 23), 16)) >>> 8; arr[9] = v & 0xff; // Parse ........-....-....-....-############ // (Use "/" to avoid 32-bit truncation when bit-shifting high-order bytes) arr[10] = (v = parseInt(uuid.slice(24, 36), 16)) / 0x10000000000 & 0xff; arr[11] = v / 0x100000000 & 0xff; arr[12] = v >>> 24 & 0xff; arr[13] = v >>> 16 & 0xff; arr[14] = v >>> 8 & 0xff; arr[15] = v & 0xff; return arr; } var _default = parse; exports["default"] = _default; /***/ }), /***/ 86230: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _default = /^(?:[0-9a-f]{8}-[0-9a-f]{4}-[1-5][0-9a-f]{3}-[89ab][0-9a-f]{3}-[0-9a-f]{12}|00000000-0000-0000-0000-000000000000)$/i; exports["default"] = _default; /***/ }), /***/ 9784: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = rng; var _crypto = _interopRequireDefault(__nccwpck_require__(6113)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } const rnds8Pool = new Uint8Array(256); // # of random values to pre-allocate let poolPtr = rnds8Pool.length; function rng() { if (poolPtr > rnds8Pool.length - 16) { _crypto.default.randomFillSync(rnds8Pool); poolPtr = 0; } return rnds8Pool.slice(poolPtr, poolPtr += 16); } /***/ }), /***/ 38844: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _crypto = _interopRequireDefault(__nccwpck_require__(6113)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } function sha1(bytes) { if (Array.isArray(bytes)) { bytes = Buffer.from(bytes); } else if (typeof bytes === 'string') { bytes = Buffer.from(bytes, 'utf8'); } return _crypto.default.createHash('sha1').update(bytes).digest(); } var _default = sha1; exports["default"] = _default; /***/ }), /***/ 61458: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _validate = _interopRequireDefault(__nccwpck_require__(92609)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } /** * Convert array of 16 byte values to UUID string format of the form: * XXXXXXXX-XXXX-XXXX-XXXX-XXXXXXXXXXXX */ const byteToHex = []; for (let i = 0; i < 256; ++i) { byteToHex.push((i + 0x100).toString(16).substr(1)); } function stringify(arr, offset = 0) { // Note: Be careful editing this code! It's been tuned for performance // and works in ways you may not expect. See https://github.com/uuidjs/uuid/pull/434 const uuid = (byteToHex[arr[offset + 0]] + byteToHex[arr[offset + 1]] + byteToHex[arr[offset + 2]] + byteToHex[arr[offset + 3]] + '-' + byteToHex[arr[offset + 4]] + byteToHex[arr[offset + 5]] + '-' + byteToHex[arr[offset + 6]] + byteToHex[arr[offset + 7]] + '-' + byteToHex[arr[offset + 8]] + byteToHex[arr[offset + 9]] + '-' + byteToHex[arr[offset + 10]] + byteToHex[arr[offset + 11]] + byteToHex[arr[offset + 12]] + byteToHex[arr[offset + 13]] + byteToHex[arr[offset + 14]] + byteToHex[arr[offset + 15]]).toLowerCase(); // Consistency check for valid UUID. If this throws, it's likely due to one // of the following: // - One or more input array values don't map to a hex octet (leading to // "undefined" in the uuid) // - Invalid input values for the RFC `version` or `variant` fields if (!(0, _validate.default)(uuid)) { throw TypeError('Stringified UUID is invalid'); } return uuid; } var _default = stringify; exports["default"] = _default; /***/ }), /***/ 81595: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _rng = _interopRequireDefault(__nccwpck_require__(9784)); var _stringify = _interopRequireDefault(__nccwpck_require__(61458)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } // **`v1()` - Generate time-based UUID** // // Inspired by https://github.com/LiosK/UUID.js // and http://docs.python.org/library/uuid.html let _nodeId; let _clockseq; // Previous uuid creation time let _lastMSecs = 0; let _lastNSecs = 0; // See https://github.com/uuidjs/uuid for API details function v1(options, buf, offset) { let i = buf && offset || 0; const b = buf || new Array(16); options = options || {}; let node = options.node || _nodeId; let clockseq = options.clockseq !== undefined ? options.clockseq : _clockseq; // node and clockseq need to be initialized to random values if they're not // specified. We do this lazily to minimize issues related to insufficient // system entropy. See #189 if (node == null || clockseq == null) { const seedBytes = options.random || (options.rng || _rng.default)(); if (node == null) { // Per 4.5, create and 48-bit node id, (47 random bits + multicast bit = 1) node = _nodeId = [seedBytes[0] | 0x01, seedBytes[1], seedBytes[2], seedBytes[3], seedBytes[4], seedBytes[5]]; } if (clockseq == null) { // Per 4.2.2, randomize (14 bit) clockseq clockseq = _clockseq = (seedBytes[6] << 8 | seedBytes[7]) & 0x3fff; } } // UUID timestamps are 100 nano-second units since the Gregorian epoch, // (1582-10-15 00:00). JSNumbers aren't precise enough for this, so // time is handled internally as 'msecs' (integer milliseconds) and 'nsecs' // (100-nanoseconds offset from msecs) since unix epoch, 1970-01-01 00:00. let msecs = options.msecs !== undefined ? options.msecs : Date.now(); // Per 4.2.1.2, use count of uuid's generated during the current clock // cycle to simulate higher resolution clock let nsecs = options.nsecs !== undefined ? options.nsecs : _lastNSecs + 1; // Time since last uuid creation (in msecs) const dt = msecs - _lastMSecs + (nsecs - _lastNSecs) / 10000; // Per 4.2.1.2, Bump clockseq on clock regression if (dt < 0 && options.clockseq === undefined) { clockseq = clockseq + 1 & 0x3fff; } // Reset nsecs if clock regresses (new clockseq) or we've moved onto a new // time interval if ((dt < 0 || msecs > _lastMSecs) && options.nsecs === undefined) { nsecs = 0; } // Per 4.2.1.2 Throw error if too many uuids are requested if (nsecs >= 10000) { throw new Error("uuid.v1(): Can't create more than 10M uuids/sec"); } _lastMSecs = msecs; _lastNSecs = nsecs; _clockseq = clockseq; // Per 4.1.4 - Convert from unix epoch to Gregorian epoch msecs += 12219292800000; // `time_low` const tl = ((msecs & 0xfffffff) * 10000 + nsecs) % 0x100000000; b[i++] = tl >>> 24 & 0xff; b[i++] = tl >>> 16 & 0xff; b[i++] = tl >>> 8 & 0xff; b[i++] = tl & 0xff; // `time_mid` const tmh = msecs / 0x100000000 * 10000 & 0xfffffff; b[i++] = tmh >>> 8 & 0xff; b[i++] = tmh & 0xff; // `time_high_and_version` b[i++] = tmh >>> 24 & 0xf | 0x10; // include version b[i++] = tmh >>> 16 & 0xff; // `clock_seq_hi_and_reserved` (Per 4.2.2 - include variant) b[i++] = clockseq >>> 8 | 0x80; // `clock_seq_low` b[i++] = clockseq & 0xff; // `node` for (let n = 0; n < 6; ++n) { b[i + n] = node[n]; } return buf || (0, _stringify.default)(b); } var _default = v1; exports["default"] = _default; /***/ }), /***/ 26993: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _v = _interopRequireDefault(__nccwpck_require__(65920)); var _md = _interopRequireDefault(__nccwpck_require__(5842)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } const v3 = (0, _v.default)('v3', 0x30, _md.default); var _default = v3; exports["default"] = _default; /***/ }), /***/ 65920: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = _default; exports.URL = exports.DNS = void 0; var _stringify = _interopRequireDefault(__nccwpck_require__(61458)); var _parse = _interopRequireDefault(__nccwpck_require__(26385)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } function stringToBytes(str) { str = unescape(encodeURIComponent(str)); // UTF8 escape const bytes = []; for (let i = 0; i < str.length; ++i) { bytes.push(str.charCodeAt(i)); } return bytes; } const DNS = '6ba7b810-9dad-11d1-80b4-00c04fd430c8'; exports.DNS = DNS; const URL = '6ba7b811-9dad-11d1-80b4-00c04fd430c8'; exports.URL = URL; function _default(name, version, hashfunc) { function generateUUID(value, namespace, buf, offset) { if (typeof value === 'string') { value = stringToBytes(value); } if (typeof namespace === 'string') { namespace = (0, _parse.default)(namespace); } if (namespace.length !== 16) { throw TypeError('Namespace must be array-like (16 iterable integer values, 0-255)'); } // Compute hash of namespace and value, Per 4.3 // Future: Use spread syntax when supported on all platforms, e.g. `bytes = // hashfunc([...namespace, ... value])` let bytes = new Uint8Array(16 + value.length); bytes.set(namespace); bytes.set(value, namespace.length); bytes = hashfunc(bytes); bytes[6] = bytes[6] & 0x0f | version; bytes[8] = bytes[8] & 0x3f | 0x80; if (buf) { offset = offset || 0; for (let i = 0; i < 16; ++i) { buf[offset + i] = bytes[i]; } return buf; } return (0, _stringify.default)(bytes); } // Function#name is not settable on some platforms (#270) try { generateUUID.name = name; // eslint-disable-next-line no-empty } catch (err) {} // For CommonJS default export support generateUUID.DNS = DNS; generateUUID.URL = URL; return generateUUID; } /***/ }), /***/ 51472: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _rng = _interopRequireDefault(__nccwpck_require__(9784)); var _stringify = _interopRequireDefault(__nccwpck_require__(61458)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } function v4(options, buf, offset) { options = options || {}; const rnds = options.random || (options.rng || _rng.default)(); // Per 4.4, set bits for version and `clock_seq_hi_and_reserved` rnds[6] = rnds[6] & 0x0f | 0x40; rnds[8] = rnds[8] & 0x3f | 0x80; // Copy bytes to buffer, if provided if (buf) { offset = offset || 0; for (let i = 0; i < 16; ++i) { buf[offset + i] = rnds[i]; } return buf; } return (0, _stringify.default)(rnds); } var _default = v4; exports["default"] = _default; /***/ }), /***/ 16217: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _v = _interopRequireDefault(__nccwpck_require__(65920)); var _sha = _interopRequireDefault(__nccwpck_require__(38844)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } const v5 = (0, _v.default)('v5', 0x50, _sha.default); var _default = v5; exports["default"] = _default; /***/ }), /***/ 92609: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _regex = _interopRequireDefault(__nccwpck_require__(86230)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } function validate(uuid) { return typeof uuid === 'string' && _regex.default.test(uuid); } var _default = validate; exports["default"] = _default; /***/ }), /***/ 40427: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _validate = _interopRequireDefault(__nccwpck_require__(92609)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } function version(uuid) { if (!(0, _validate.default)(uuid)) { throw TypeError('Invalid UUID'); } return parseInt(uuid.substr(14, 1), 16); } var _default = version; exports["default"] = _default; /***/ }), /***/ 71514: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (Object.hasOwnProperty.call(mod, k)) result[k] = mod[k]; result["default"] = mod; return result; }; Object.defineProperty(exports, "__esModule", ({ value: true })); const tr = __importStar(__nccwpck_require__(88159)); /** * Exec a command. * Output will be streamed to the live console. * Returns promise with return code * * @param commandLine command to execute (can include additional args). Must be correctly escaped. * @param args optional arguments for tool. Escaping is handled by the lib. * @param options optional exec options. See ExecOptions * @returns Promise exit code */ function exec(commandLine, args, options) { return __awaiter(this, void 0, void 0, function* () { const commandArgs = tr.argStringToArray(commandLine); if (commandArgs.length === 0) { throw new Error(`Parameter 'commandLine' cannot be null or empty.`); } // Path to tool to execute should be first arg const toolPath = commandArgs[0]; args = commandArgs.slice(1).concat(args || []); const runner = new tr.ToolRunner(toolPath, args, options); return runner.exec(); }); } exports.exec = exec; //# sourceMappingURL=exec.js.map /***/ }), /***/ 88159: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (Object.hasOwnProperty.call(mod, k)) result[k] = mod[k]; result["default"] = mod; return result; }; Object.defineProperty(exports, "__esModule", ({ value: true })); const os = __importStar(__nccwpck_require__(22037)); const events = __importStar(__nccwpck_require__(82361)); const child = __importStar(__nccwpck_require__(32081)); const path = __importStar(__nccwpck_require__(71017)); const io = __importStar(__nccwpck_require__(47351)); const ioUtil = __importStar(__nccwpck_require__(81962)); /* eslint-disable @typescript-eslint/unbound-method */ const IS_WINDOWS = process.platform === 'win32'; /* * Class for running command line tools. Handles quoting and arg parsing in a platform agnostic way. */ class ToolRunner extends events.EventEmitter { constructor(toolPath, args, options) { super(); if (!toolPath) { throw new Error("Parameter 'toolPath' cannot be null or empty."); } this.toolPath = toolPath; this.args = args || []; this.options = options || {}; } _debug(message) { if (this.options.listeners && this.options.listeners.debug) { this.options.listeners.debug(message); } } _getCommandString(options, noPrefix) { const toolPath = this._getSpawnFileName(); const args = this._getSpawnArgs(options); let cmd = noPrefix ? '' : '[command]'; // omit prefix when piped to a second tool if (IS_WINDOWS) { // Windows + cmd file if (this._isCmdFile()) { cmd += toolPath; for (const a of args) { cmd += ` ${a}`; } } // Windows + verbatim else if (options.windowsVerbatimArguments) { cmd += `"${toolPath}"`; for (const a of args) { cmd += ` ${a}`; } } // Windows (regular) else { cmd += this._windowsQuoteCmdArg(toolPath); for (const a of args) { cmd += ` ${this._windowsQuoteCmdArg(a)}`; } } } else { // OSX/Linux - this can likely be improved with some form of quoting. // creating processes on Unix is fundamentally different than Windows. // on Unix, execvp() takes an arg array. cmd += toolPath; for (const a of args) { cmd += ` ${a}`; } } return cmd; } _processLineBuffer(data, strBuffer, onLine) { try { let s = strBuffer + data.toString(); let n = s.indexOf(os.EOL); while (n > -1) { const line = s.substring(0, n); onLine(line); // the rest of the string ... s = s.substring(n + os.EOL.length); n = s.indexOf(os.EOL); } strBuffer = s; } catch (err) { // streaming lines to console is best effort. Don't fail a build. this._debug(`error processing line. Failed with error ${err}`); } } _getSpawnFileName() { if (IS_WINDOWS) { if (this._isCmdFile()) { return process.env['COMSPEC'] || 'cmd.exe'; } } return this.toolPath; } _getSpawnArgs(options) { if (IS_WINDOWS) { if (this._isCmdFile()) { let argline = `/D /S /C "${this._windowsQuoteCmdArg(this.toolPath)}`; for (const a of this.args) { argline += ' '; argline += options.windowsVerbatimArguments ? a : this._windowsQuoteCmdArg(a); } argline += '"'; return [argline]; } } return this.args; } _endsWith(str, end) { return str.endsWith(end); } _isCmdFile() { const upperToolPath = this.toolPath.toUpperCase(); return (this._endsWith(upperToolPath, '.CMD') || this._endsWith(upperToolPath, '.BAT')); } _windowsQuoteCmdArg(arg) { // for .exe, apply the normal quoting rules that libuv applies if (!this._isCmdFile()) { return this._uvQuoteCmdArg(arg); } // otherwise apply quoting rules specific to the cmd.exe command line parser. // the libuv rules are generic and are not designed specifically for cmd.exe // command line parser. // // for a detailed description of the cmd.exe command line parser, refer to // http://stackoverflow.com/questions/4094699/how-does-the-windows-command-interpreter-cmd-exe-parse-scripts/7970912#7970912 // need quotes for empty arg if (!arg) { return '""'; } // determine whether the arg needs to be quoted const cmdSpecialChars = [ ' ', '\t', '&', '(', ')', '[', ']', '{', '}', '^', '=', ';', '!', "'", '+', ',', '`', '~', '|', '<', '>', '"' ]; let needsQuotes = false; for (const char of arg) { if (cmdSpecialChars.some(x => x === char)) { needsQuotes = true; break; } } // short-circuit if quotes not needed if (!needsQuotes) { return arg; } // the following quoting rules are very similar to the rules that by libuv applies. // // 1) wrap the string in quotes // // 2) double-up quotes - i.e. " => "" // // this is different from the libuv quoting rules. libuv replaces " with \", which unfortunately // doesn't work well with a cmd.exe command line. // // note, replacing " with "" also works well if the arg is passed to a downstream .NET console app. // for example, the command line: // foo.exe "myarg:""my val""" // is parsed by a .NET console app into an arg array: // [ "myarg:\"my val\"" ] // which is the same end result when applying libuv quoting rules. although the actual // command line from libuv quoting rules would look like: // foo.exe "myarg:\"my val\"" // // 3) double-up slashes that precede a quote, // e.g. hello \world => "hello \world" // hello\"world => "hello\\""world" // hello\\"world => "hello\\\\""world" // hello world\ => "hello world\\" // // technically this is not required for a cmd.exe command line, or the batch argument parser. // the reasons for including this as a .cmd quoting rule are: // // a) this is optimized for the scenario where the argument is passed from the .cmd file to an // external program. many programs (e.g. .NET console apps) rely on the slash-doubling rule. // // b) it's what we've been doing previously (by deferring to node default behavior) and we // haven't heard any complaints about that aspect. // // note, a weakness of the quoting rules chosen here, is that % is not escaped. in fact, % cannot be // escaped when used on the command line directly - even though within a .cmd file % can be escaped // by using %%. // // the saving grace is, on the command line, %var% is left as-is if var is not defined. this contrasts // the line parsing rules within a .cmd file, where if var is not defined it is replaced with nothing. // // one option that was explored was replacing % with ^% - i.e. %var% => ^%var^%. this hack would // often work, since it is unlikely that var^ would exist, and the ^ character is removed when the // variable is used. the problem, however, is that ^ is not removed when %* is used to pass the args // to an external program. // // an unexplored potential solution for the % escaping problem, is to create a wrapper .cmd file. // % can be escaped within a .cmd file. let reverse = '"'; let quoteHit = true; for (let i = arg.length; i > 0; i--) { // walk the string in reverse reverse += arg[i - 1]; if (quoteHit && arg[i - 1] === '\\') { reverse += '\\'; // double the slash } else if (arg[i - 1] === '"') { quoteHit = true; reverse += '"'; // double the quote } else { quoteHit = false; } } reverse += '"'; return reverse .split('') .reverse() .join(''); } _uvQuoteCmdArg(arg) { // Tool runner wraps child_process.spawn() and needs to apply the same quoting as // Node in certain cases where the undocumented spawn option windowsVerbatimArguments // is used. // // Since this function is a port of quote_cmd_arg from Node 4.x (technically, lib UV, // see https://github.com/nodejs/node/blob/v4.x/deps/uv/src/win/process.c for details), // pasting copyright notice from Node within this function: // // Copyright Joyent, Inc. and other Node contributors. All rights reserved. // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to // deal in the Software without restriction, including without limitation the // rights to use, copy, modify, merge, publish, distribute, sublicense, and/or // sell copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING // FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS // IN THE SOFTWARE. if (!arg) { // Need double quotation for empty argument return '""'; } if (!arg.includes(' ') && !arg.includes('\t') && !arg.includes('"')) { // No quotation needed return arg; } if (!arg.includes('"') && !arg.includes('\\')) { // No embedded double quotes or backslashes, so I can just wrap // quote marks around the whole thing. return `"${arg}"`; } // Expected input/output: // input : hello"world // output: "hello\"world" // input : hello""world // output: "hello\"\"world" // input : hello\world // output: hello\world // input : hello\\world // output: hello\\world // input : hello\"world // output: "hello\\\"world" // input : hello\\"world // output: "hello\\\\\"world" // input : hello world\ // output: "hello world\\" - note the comment in libuv actually reads "hello world\" // but it appears the comment is wrong, it should be "hello world\\" let reverse = '"'; let quoteHit = true; for (let i = arg.length; i > 0; i--) { // walk the string in reverse reverse += arg[i - 1]; if (quoteHit && arg[i - 1] === '\\') { reverse += '\\'; } else if (arg[i - 1] === '"') { quoteHit = true; reverse += '\\'; } else { quoteHit = false; } } reverse += '"'; return reverse .split('') .reverse() .join(''); } _cloneExecOptions(options) { options = options || {}; const result = { cwd: options.cwd || process.cwd(), env: options.env || process.env, silent: options.silent || false, windowsVerbatimArguments: options.windowsVerbatimArguments || false, failOnStdErr: options.failOnStdErr || false, ignoreReturnCode: options.ignoreReturnCode || false, delay: options.delay || 10000 }; result.outStream = options.outStream || process.stdout; result.errStream = options.errStream || process.stderr; return result; } _getSpawnOptions(options, toolPath) { options = options || {}; const result = {}; result.cwd = options.cwd; result.env = options.env; result['windowsVerbatimArguments'] = options.windowsVerbatimArguments || this._isCmdFile(); if (options.windowsVerbatimArguments) { result.argv0 = `"${toolPath}"`; } return result; } /** * Exec a tool. * Output will be streamed to the live console. * Returns promise with return code * * @param tool path to tool to exec * @param options optional exec options. See ExecOptions * @returns number */ exec() { return __awaiter(this, void 0, void 0, function* () { // root the tool path if it is unrooted and contains relative pathing if (!ioUtil.isRooted(this.toolPath) && (this.toolPath.includes('/') || (IS_WINDOWS && this.toolPath.includes('\\')))) { // prefer options.cwd if it is specified, however options.cwd may also need to be rooted this.toolPath = path.resolve(process.cwd(), this.options.cwd || process.cwd(), this.toolPath); } // if the tool is only a file name, then resolve it from the PATH // otherwise verify it exists (add extension on Windows if necessary) this.toolPath = yield io.which(this.toolPath, true); return new Promise((resolve, reject) => { this._debug(`exec tool: ${this.toolPath}`); this._debug('arguments:'); for (const arg of this.args) { this._debug(` ${arg}`); } const optionsNonNull = this._cloneExecOptions(this.options); if (!optionsNonNull.silent && optionsNonNull.outStream) { optionsNonNull.outStream.write(this._getCommandString(optionsNonNull) + os.EOL); } const state = new ExecState(optionsNonNull, this.toolPath); state.on('debug', (message) => { this._debug(message); }); const fileName = this._getSpawnFileName(); const cp = child.spawn(fileName, this._getSpawnArgs(optionsNonNull), this._getSpawnOptions(this.options, fileName)); const stdbuffer = ''; if (cp.stdout) { cp.stdout.on('data', (data) => { if (this.options.listeners && this.options.listeners.stdout) { this.options.listeners.stdout(data); } if (!optionsNonNull.silent && optionsNonNull.outStream) { optionsNonNull.outStream.write(data); } this._processLineBuffer(data, stdbuffer, (line) => { if (this.options.listeners && this.options.listeners.stdline) { this.options.listeners.stdline(line); } }); }); } const errbuffer = ''; if (cp.stderr) { cp.stderr.on('data', (data) => { state.processStderr = true; if (this.options.listeners && this.options.listeners.stderr) { this.options.listeners.stderr(data); } if (!optionsNonNull.silent && optionsNonNull.errStream && optionsNonNull.outStream) { const s = optionsNonNull.failOnStdErr ? optionsNonNull.errStream : optionsNonNull.outStream; s.write(data); } this._processLineBuffer(data, errbuffer, (line) => { if (this.options.listeners && this.options.listeners.errline) { this.options.listeners.errline(line); } }); }); } cp.on('error', (err) => { state.processError = err.message; state.processExited = true; state.processClosed = true; state.CheckComplete(); }); cp.on('exit', (code) => { state.processExitCode = code; state.processExited = true; this._debug(`Exit code ${code} received from tool '${this.toolPath}'`); state.CheckComplete(); }); cp.on('close', (code) => { state.processExitCode = code; state.processExited = true; state.processClosed = true; this._debug(`STDIO streams have closed for tool '${this.toolPath}'`); state.CheckComplete(); }); state.on('done', (error, exitCode) => { if (stdbuffer.length > 0) { this.emit('stdline', stdbuffer); } if (errbuffer.length > 0) { this.emit('errline', errbuffer); } cp.removeAllListeners(); if (error) { reject(error); } else { resolve(exitCode); } }); if (this.options.input) { if (!cp.stdin) { throw new Error('child process missing stdin'); } cp.stdin.end(this.options.input); } }); }); } } exports.ToolRunner = ToolRunner; /** * Convert an arg string to an array of args. Handles escaping * * @param argString string of arguments * @returns string[] array of arguments */ function argStringToArray(argString) { const args = []; let inQuotes = false; let escaped = false; let arg = ''; function append(c) { // we only escape double quotes. if (escaped && c !== '"') { arg += '\\'; } arg += c; escaped = false; } for (let i = 0; i < argString.length; i++) { const c = argString.charAt(i); if (c === '"') { if (!escaped) { inQuotes = !inQuotes; } else { append(c); } continue; } if (c === '\\' && escaped) { append(c); continue; } if (c === '\\' && inQuotes) { escaped = true; continue; } if (c === ' ' && !inQuotes) { if (arg.length > 0) { args.push(arg); arg = ''; } continue; } append(c); } if (arg.length > 0) { args.push(arg.trim()); } return args; } exports.argStringToArray = argStringToArray; class ExecState extends events.EventEmitter { constructor(options, toolPath) { super(); this.processClosed = false; // tracks whether the process has exited and stdio is closed this.processError = ''; this.processExitCode = 0; this.processExited = false; // tracks whether the process has exited this.processStderr = false; // tracks whether stderr was written to this.delay = 10000; // 10 seconds this.done = false; this.timeout = null; if (!toolPath) { throw new Error('toolPath must not be empty'); } this.options = options; this.toolPath = toolPath; if (options.delay) { this.delay = options.delay; } } CheckComplete() { if (this.done) { return; } if (this.processClosed) { this._setResult(); } else if (this.processExited) { this.timeout = setTimeout(ExecState.HandleTimeout, this.delay, this); } } _debug(message) { this.emit('debug', message); } _setResult() { // determine whether there is an error let error; if (this.processExited) { if (this.processError) { error = new Error(`There was an error when attempting to execute the process '${this.toolPath}'. This may indicate the process failed to start. Error: ${this.processError}`); } else if (this.processExitCode !== 0 && !this.options.ignoreReturnCode) { error = new Error(`The process '${this.toolPath}' failed with exit code ${this.processExitCode}`); } else if (this.processStderr && this.options.failOnStdErr) { error = new Error(`The process '${this.toolPath}' failed because one or more lines were written to the STDERR stream`); } } // clear the timeout if (this.timeout) { clearTimeout(this.timeout); this.timeout = null; } this.done = true; this.emit('done', error, this.processExitCode); } static HandleTimeout(state) { if (state.done) { return; } if (!state.processClosed && state.processExited) { const message = `The STDIO streams did not close within ${state.delay / 1000} seconds of the exit event from process '${state.toolPath}'. This may indicate a child process inherited the STDIO streams and has not yet exited.`; state._debug(message); } state._setResult(); } } //# sourceMappingURL=toolrunner.js.map /***/ }), /***/ 28090: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.hashFiles = exports.create = void 0; const internal_globber_1 = __nccwpck_require__(28298); const internal_hash_files_1 = __nccwpck_require__(2448); /** * Constructs a globber * * @param patterns Patterns separated by newlines * @param options Glob options */ function create(patterns, options) { return __awaiter(this, void 0, void 0, function* () { return yield internal_globber_1.DefaultGlobber.create(patterns, options); }); } exports.create = create; /** * Computes the sha256 hash of a glob * * @param patterns Patterns separated by newlines * @param options Glob options */ function hashFiles(patterns, options) { return __awaiter(this, void 0, void 0, function* () { let followSymbolicLinks = true; if (options && typeof options.followSymbolicLinks === 'boolean') { followSymbolicLinks = options.followSymbolicLinks; } const globber = yield create(patterns, { followSymbolicLinks }); return internal_hash_files_1.hashFiles(globber); }); } exports.hashFiles = hashFiles; //# sourceMappingURL=glob.js.map /***/ }), /***/ 51026: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } }); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.getOptions = void 0; const core = __importStar(__nccwpck_require__(42186)); /** * Returns a copy with defaults filled in. */ function getOptions(copy) { const result = { followSymbolicLinks: true, implicitDescendants: true, matchDirectories: true, omitBrokenSymbolicLinks: true }; if (copy) { if (typeof copy.followSymbolicLinks === 'boolean') { result.followSymbolicLinks = copy.followSymbolicLinks; core.debug(`followSymbolicLinks '${result.followSymbolicLinks}'`); } if (typeof copy.implicitDescendants === 'boolean') { result.implicitDescendants = copy.implicitDescendants; core.debug(`implicitDescendants '${result.implicitDescendants}'`); } if (typeof copy.matchDirectories === 'boolean') { result.matchDirectories = copy.matchDirectories; core.debug(`matchDirectories '${result.matchDirectories}'`); } if (typeof copy.omitBrokenSymbolicLinks === 'boolean') { result.omitBrokenSymbolicLinks = copy.omitBrokenSymbolicLinks; core.debug(`omitBrokenSymbolicLinks '${result.omitBrokenSymbolicLinks}'`); } } return result; } exports.getOptions = getOptions; //# sourceMappingURL=internal-glob-options-helper.js.map /***/ }), /***/ 28298: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } }); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; var __asyncValues = (this && this.__asyncValues) || function (o) { if (!Symbol.asyncIterator) throw new TypeError("Symbol.asyncIterator is not defined."); var m = o[Symbol.asyncIterator], i; return m ? m.call(o) : (o = typeof __values === "function" ? __values(o) : o[Symbol.iterator](), i = {}, verb("next"), verb("throw"), verb("return"), i[Symbol.asyncIterator] = function () { return this; }, i); function verb(n) { i[n] = o[n] && function (v) { return new Promise(function (resolve, reject) { v = o[n](v), settle(resolve, reject, v.done, v.value); }); }; } function settle(resolve, reject, d, v) { Promise.resolve(v).then(function(v) { resolve({ value: v, done: d }); }, reject); } }; var __await = (this && this.__await) || function (v) { return this instanceof __await ? (this.v = v, this) : new __await(v); } var __asyncGenerator = (this && this.__asyncGenerator) || function (thisArg, _arguments, generator) { if (!Symbol.asyncIterator) throw new TypeError("Symbol.asyncIterator is not defined."); var g = generator.apply(thisArg, _arguments || []), i, q = []; return i = {}, verb("next"), verb("throw"), verb("return"), i[Symbol.asyncIterator] = function () { return this; }, i; function verb(n) { if (g[n]) i[n] = function (v) { return new Promise(function (a, b) { q.push([n, v, a, b]) > 1 || resume(n, v); }); }; } function resume(n, v) { try { step(g[n](v)); } catch (e) { settle(q[0][3], e); } } function step(r) { r.value instanceof __await ? Promise.resolve(r.value.v).then(fulfill, reject) : settle(q[0][2], r); } function fulfill(value) { resume("next", value); } function reject(value) { resume("throw", value); } function settle(f, v) { if (f(v), q.shift(), q.length) resume(q[0][0], q[0][1]); } }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.DefaultGlobber = void 0; const core = __importStar(__nccwpck_require__(42186)); const fs = __importStar(__nccwpck_require__(57147)); const globOptionsHelper = __importStar(__nccwpck_require__(51026)); const path = __importStar(__nccwpck_require__(71017)); const patternHelper = __importStar(__nccwpck_require__(29005)); const internal_match_kind_1 = __nccwpck_require__(81063); const internal_pattern_1 = __nccwpck_require__(64536); const internal_search_state_1 = __nccwpck_require__(89117); const IS_WINDOWS = process.platform === 'win32'; class DefaultGlobber { constructor(options) { this.patterns = []; this.searchPaths = []; this.options = globOptionsHelper.getOptions(options); } getSearchPaths() { // Return a copy return this.searchPaths.slice(); } glob() { var e_1, _a; return __awaiter(this, void 0, void 0, function* () { const result = []; try { for (var _b = __asyncValues(this.globGenerator()), _c; _c = yield _b.next(), !_c.done;) { const itemPath = _c.value; result.push(itemPath); } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) yield _a.call(_b); } finally { if (e_1) throw e_1.error; } } return result; }); } globGenerator() { return __asyncGenerator(this, arguments, function* globGenerator_1() { // Fill in defaults options const options = globOptionsHelper.getOptions(this.options); // Implicit descendants? const patterns = []; for (const pattern of this.patterns) { patterns.push(pattern); if (options.implicitDescendants && (pattern.trailingSeparator || pattern.segments[pattern.segments.length - 1] !== '**')) { patterns.push(new internal_pattern_1.Pattern(pattern.negate, true, pattern.segments.concat('**'))); } } // Push the search paths const stack = []; for (const searchPath of patternHelper.getSearchPaths(patterns)) { core.debug(`Search path '${searchPath}'`); // Exists? try { // Intentionally using lstat. Detection for broken symlink // will be performed later (if following symlinks). yield __await(fs.promises.lstat(searchPath)); } catch (err) { if (err.code === 'ENOENT') { continue; } throw err; } stack.unshift(new internal_search_state_1.SearchState(searchPath, 1)); } // Search const traversalChain = []; // used to detect cycles while (stack.length) { // Pop const item = stack.pop(); // Match? const match = patternHelper.match(patterns, item.path); const partialMatch = !!match || patternHelper.partialMatch(patterns, item.path); if (!match && !partialMatch) { continue; } // Stat const stats = yield __await(DefaultGlobber.stat(item, options, traversalChain) // Broken symlink, or symlink cycle detected, or no longer exists ); // Broken symlink, or symlink cycle detected, or no longer exists if (!stats) { continue; } // Directory if (stats.isDirectory()) { // Matched if (match & internal_match_kind_1.MatchKind.Directory && options.matchDirectories) { yield yield __await(item.path); } // Descend? else if (!partialMatch) { continue; } // Push the child items in reverse const childLevel = item.level + 1; const childItems = (yield __await(fs.promises.readdir(item.path))).map(x => new internal_search_state_1.SearchState(path.join(item.path, x), childLevel)); stack.push(...childItems.reverse()); } // File else if (match & internal_match_kind_1.MatchKind.File) { yield yield __await(item.path); } } }); } /** * Constructs a DefaultGlobber */ static create(patterns, options) { return __awaiter(this, void 0, void 0, function* () { const result = new DefaultGlobber(options); if (IS_WINDOWS) { patterns = patterns.replace(/\r\n/g, '\n'); patterns = patterns.replace(/\r/g, '\n'); } const lines = patterns.split('\n').map(x => x.trim()); for (const line of lines) { // Empty or comment if (!line || line.startsWith('#')) { continue; } // Pattern else { result.patterns.push(new internal_pattern_1.Pattern(line)); } } result.searchPaths.push(...patternHelper.getSearchPaths(result.patterns)); return result; }); } static stat(item, options, traversalChain) { return __awaiter(this, void 0, void 0, function* () { // Note: // `stat` returns info about the target of a symlink (or symlink chain) // `lstat` returns info about a symlink itself let stats; if (options.followSymbolicLinks) { try { // Use `stat` (following symlinks) stats = yield fs.promises.stat(item.path); } catch (err) { if (err.code === 'ENOENT') { if (options.omitBrokenSymbolicLinks) { core.debug(`Broken symlink '${item.path}'`); return undefined; } throw new Error(`No information found for the path '${item.path}'. This may indicate a broken symbolic link.`); } throw err; } } else { // Use `lstat` (not following symlinks) stats = yield fs.promises.lstat(item.path); } // Note, isDirectory() returns false for the lstat of a symlink if (stats.isDirectory() && options.followSymbolicLinks) { // Get the realpath const realPath = yield fs.promises.realpath(item.path); // Fixup the traversal chain to match the item level while (traversalChain.length >= item.level) { traversalChain.pop(); } // Test for a cycle if (traversalChain.some((x) => x === realPath)) { core.debug(`Symlink cycle detected for path '${item.path}' and realpath '${realPath}'`); return undefined; } // Update the traversal chain traversalChain.push(realPath); } return stats; }); } } exports.DefaultGlobber = DefaultGlobber; //# sourceMappingURL=internal-globber.js.map /***/ }), /***/ 2448: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } }); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; var __asyncValues = (this && this.__asyncValues) || function (o) { if (!Symbol.asyncIterator) throw new TypeError("Symbol.asyncIterator is not defined."); var m = o[Symbol.asyncIterator], i; return m ? m.call(o) : (o = typeof __values === "function" ? __values(o) : o[Symbol.iterator](), i = {}, verb("next"), verb("throw"), verb("return"), i[Symbol.asyncIterator] = function () { return this; }, i); function verb(n) { i[n] = o[n] && function (v) { return new Promise(function (resolve, reject) { v = o[n](v), settle(resolve, reject, v.done, v.value); }); }; } function settle(resolve, reject, d, v) { Promise.resolve(v).then(function(v) { resolve({ value: v, done: d }); }, reject); } }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.hashFiles = void 0; const crypto = __importStar(__nccwpck_require__(6113)); const core = __importStar(__nccwpck_require__(42186)); const fs = __importStar(__nccwpck_require__(57147)); const stream = __importStar(__nccwpck_require__(12781)); const util = __importStar(__nccwpck_require__(73837)); const path = __importStar(__nccwpck_require__(71017)); function hashFiles(globber) { var e_1, _a; var _b; return __awaiter(this, void 0, void 0, function* () { let hasMatch = false; const githubWorkspace = (_b = process.env['GITHUB_WORKSPACE']) !== null && _b !== void 0 ? _b : process.cwd(); const result = crypto.createHash('sha256'); let count = 0; try { for (var _c = __asyncValues(globber.globGenerator()), _d; _d = yield _c.next(), !_d.done;) { const file = _d.value; core.debug(file); if (!file.startsWith(`${githubWorkspace}${path.sep}`)) { core.debug(`Ignore '${file}' since it is not under GITHUB_WORKSPACE.`); continue; } if (fs.statSync(file).isDirectory()) { core.debug(`Skip directory '${file}'.`); continue; } const hash = crypto.createHash('sha256'); const pipeline = util.promisify(stream.pipeline); yield pipeline(fs.createReadStream(file), hash); result.write(hash.digest()); count++; if (!hasMatch) { hasMatch = true; } } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_d && !_d.done && (_a = _c.return)) yield _a.call(_c); } finally { if (e_1) throw e_1.error; } } result.end(); if (hasMatch) { core.debug(`Found ${count} files to hash.`); return result.digest('hex'); } else { core.debug(`No matches found for glob`); return ''; } }); } exports.hashFiles = hashFiles; //# sourceMappingURL=internal-hash-files.js.map /***/ }), /***/ 81063: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.MatchKind = void 0; /** * Indicates whether a pattern matches a path */ var MatchKind; (function (MatchKind) { /** Not matched */ MatchKind[MatchKind["None"] = 0] = "None"; /** Matched if the path is a directory */ MatchKind[MatchKind["Directory"] = 1] = "Directory"; /** Matched if the path is a regular file */ MatchKind[MatchKind["File"] = 2] = "File"; /** Matched */ MatchKind[MatchKind["All"] = 3] = "All"; })(MatchKind = exports.MatchKind || (exports.MatchKind = {})); //# sourceMappingURL=internal-match-kind.js.map /***/ }), /***/ 1849: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } }); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; var __importDefault = (this && this.__importDefault) || function (mod) { return (mod && mod.__esModule) ? mod : { "default": mod }; }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.safeTrimTrailingSeparator = exports.normalizeSeparators = exports.hasRoot = exports.hasAbsoluteRoot = exports.ensureAbsoluteRoot = exports.dirname = void 0; const path = __importStar(__nccwpck_require__(71017)); const assert_1 = __importDefault(__nccwpck_require__(39491)); const IS_WINDOWS = process.platform === 'win32'; /** * Similar to path.dirname except normalizes the path separators and slightly better handling for Windows UNC paths. * * For example, on Linux/macOS: * - `/ => /` * - `/hello => /` * * For example, on Windows: * - `C:\ => C:\` * - `C:\hello => C:\` * - `C: => C:` * - `C:hello => C:` * - `\ => \` * - `\hello => \` * - `\\hello => \\hello` * - `\\hello\world => \\hello\world` */ function dirname(p) { // Normalize slashes and trim unnecessary trailing slash p = safeTrimTrailingSeparator(p); // Windows UNC root, e.g. \\hello or \\hello\world if (IS_WINDOWS && /^\\\\[^\\]+(\\[^\\]+)?$/.test(p)) { return p; } // Get dirname let result = path.dirname(p); // Trim trailing slash for Windows UNC root, e.g. \\hello\world\ if (IS_WINDOWS && /^\\\\[^\\]+\\[^\\]+\\$/.test(result)) { result = safeTrimTrailingSeparator(result); } return result; } exports.dirname = dirname; /** * Roots the path if not already rooted. On Windows, relative roots like `\` * or `C:` are expanded based on the current working directory. */ function ensureAbsoluteRoot(root, itemPath) { assert_1.default(root, `ensureAbsoluteRoot parameter 'root' must not be empty`); assert_1.default(itemPath, `ensureAbsoluteRoot parameter 'itemPath' must not be empty`); // Already rooted if (hasAbsoluteRoot(itemPath)) { return itemPath; } // Windows if (IS_WINDOWS) { // Check for itemPath like C: or C:foo if (itemPath.match(/^[A-Z]:[^\\/]|^[A-Z]:$/i)) { let cwd = process.cwd(); assert_1.default(cwd.match(/^[A-Z]:\\/i), `Expected current directory to start with an absolute drive root. Actual '${cwd}'`); // Drive letter matches cwd? Expand to cwd if (itemPath[0].toUpperCase() === cwd[0].toUpperCase()) { // Drive only, e.g. C: if (itemPath.length === 2) { // Preserve specified drive letter case (upper or lower) return `${itemPath[0]}:\\${cwd.substr(3)}`; } // Drive + path, e.g. C:foo else { if (!cwd.endsWith('\\')) { cwd += '\\'; } // Preserve specified drive letter case (upper or lower) return `${itemPath[0]}:\\${cwd.substr(3)}${itemPath.substr(2)}`; } } // Different drive else { return `${itemPath[0]}:\\${itemPath.substr(2)}`; } } // Check for itemPath like \ or \foo else if (normalizeSeparators(itemPath).match(/^\\$|^\\[^\\]/)) { const cwd = process.cwd(); assert_1.default(cwd.match(/^[A-Z]:\\/i), `Expected current directory to start with an absolute drive root. Actual '${cwd}'`); return `${cwd[0]}:\\${itemPath.substr(1)}`; } } assert_1.default(hasAbsoluteRoot(root), `ensureAbsoluteRoot parameter 'root' must have an absolute root`); // Otherwise ensure root ends with a separator if (root.endsWith('/') || (IS_WINDOWS && root.endsWith('\\'))) { // Intentionally empty } else { // Append separator root += path.sep; } return root + itemPath; } exports.ensureAbsoluteRoot = ensureAbsoluteRoot; /** * On Linux/macOS, true if path starts with `/`. On Windows, true for paths like: * `\\hello\share` and `C:\hello` (and using alternate separator). */ function hasAbsoluteRoot(itemPath) { assert_1.default(itemPath, `hasAbsoluteRoot parameter 'itemPath' must not be empty`); // Normalize separators itemPath = normalizeSeparators(itemPath); // Windows if (IS_WINDOWS) { // E.g. \\hello\share or C:\hello return itemPath.startsWith('\\\\') || /^[A-Z]:\\/i.test(itemPath); } // E.g. /hello return itemPath.startsWith('/'); } exports.hasAbsoluteRoot = hasAbsoluteRoot; /** * On Linux/macOS, true if path starts with `/`. On Windows, true for paths like: * `\`, `\hello`, `\\hello\share`, `C:`, and `C:\hello` (and using alternate separator). */ function hasRoot(itemPath) { assert_1.default(itemPath, `isRooted parameter 'itemPath' must not be empty`); // Normalize separators itemPath = normalizeSeparators(itemPath); // Windows if (IS_WINDOWS) { // E.g. \ or \hello or \\hello // E.g. C: or C:\hello return itemPath.startsWith('\\') || /^[A-Z]:/i.test(itemPath); } // E.g. /hello return itemPath.startsWith('/'); } exports.hasRoot = hasRoot; /** * Removes redundant slashes and converts `/` to `\` on Windows */ function normalizeSeparators(p) { p = p || ''; // Windows if (IS_WINDOWS) { // Convert slashes on Windows p = p.replace(/\//g, '\\'); // Remove redundant slashes const isUnc = /^\\\\+[^\\]/.test(p); // e.g. \\hello return (isUnc ? '\\' : '') + p.replace(/\\\\+/g, '\\'); // preserve leading \\ for UNC } // Remove redundant slashes return p.replace(/\/\/+/g, '/'); } exports.normalizeSeparators = normalizeSeparators; /** * Normalizes the path separators and trims the trailing separator (when safe). * For example, `/foo/ => /foo` but `/ => /` */ function safeTrimTrailingSeparator(p) { // Short-circuit if empty if (!p) { return ''; } // Normalize separators p = normalizeSeparators(p); // No trailing slash if (!p.endsWith(path.sep)) { return p; } // Check '/' on Linux/macOS and '\' on Windows if (p === path.sep) { return p; } // On Windows check if drive root. E.g. C:\ if (IS_WINDOWS && /^[A-Z]:\\$/i.test(p)) { return p; } // Otherwise trim trailing slash return p.substr(0, p.length - 1); } exports.safeTrimTrailingSeparator = safeTrimTrailingSeparator; //# sourceMappingURL=internal-path-helper.js.map /***/ }), /***/ 96836: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } }); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; var __importDefault = (this && this.__importDefault) || function (mod) { return (mod && mod.__esModule) ? mod : { "default": mod }; }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.Path = void 0; const path = __importStar(__nccwpck_require__(71017)); const pathHelper = __importStar(__nccwpck_require__(1849)); const assert_1 = __importDefault(__nccwpck_require__(39491)); const IS_WINDOWS = process.platform === 'win32'; /** * Helper class for parsing paths into segments */ class Path { /** * Constructs a Path * @param itemPath Path or array of segments */ constructor(itemPath) { this.segments = []; // String if (typeof itemPath === 'string') { assert_1.default(itemPath, `Parameter 'itemPath' must not be empty`); // Normalize slashes and trim unnecessary trailing slash itemPath = pathHelper.safeTrimTrailingSeparator(itemPath); // Not rooted if (!pathHelper.hasRoot(itemPath)) { this.segments = itemPath.split(path.sep); } // Rooted else { // Add all segments, while not at the root let remaining = itemPath; let dir = pathHelper.dirname(remaining); while (dir !== remaining) { // Add the segment const basename = path.basename(remaining); this.segments.unshift(basename); // Truncate the last segment remaining = dir; dir = pathHelper.dirname(remaining); } // Remainder is the root this.segments.unshift(remaining); } } // Array else { // Must not be empty assert_1.default(itemPath.length > 0, `Parameter 'itemPath' must not be an empty array`); // Each segment for (let i = 0; i < itemPath.length; i++) { let segment = itemPath[i]; // Must not be empty assert_1.default(segment, `Parameter 'itemPath' must not contain any empty segments`); // Normalize slashes segment = pathHelper.normalizeSeparators(itemPath[i]); // Root segment if (i === 0 && pathHelper.hasRoot(segment)) { segment = pathHelper.safeTrimTrailingSeparator(segment); assert_1.default(segment === pathHelper.dirname(segment), `Parameter 'itemPath' root segment contains information for multiple segments`); this.segments.push(segment); } // All other segments else { // Must not contain slash assert_1.default(!segment.includes(path.sep), `Parameter 'itemPath' contains unexpected path separators`); this.segments.push(segment); } } } } /** * Converts the path to it's string representation */ toString() { // First segment let result = this.segments[0]; // All others let skipSlash = result.endsWith(path.sep) || (IS_WINDOWS && /^[A-Z]:$/i.test(result)); for (let i = 1; i < this.segments.length; i++) { if (skipSlash) { skipSlash = false; } else { result += path.sep; } result += this.segments[i]; } return result; } } exports.Path = Path; //# sourceMappingURL=internal-path.js.map /***/ }), /***/ 29005: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } }); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.partialMatch = exports.match = exports.getSearchPaths = void 0; const pathHelper = __importStar(__nccwpck_require__(1849)); const internal_match_kind_1 = __nccwpck_require__(81063); const IS_WINDOWS = process.platform === 'win32'; /** * Given an array of patterns, returns an array of paths to search. * Duplicates and paths under other included paths are filtered out. */ function getSearchPaths(patterns) { // Ignore negate patterns patterns = patterns.filter(x => !x.negate); // Create a map of all search paths const searchPathMap = {}; for (const pattern of patterns) { const key = IS_WINDOWS ? pattern.searchPath.toUpperCase() : pattern.searchPath; searchPathMap[key] = 'candidate'; } const result = []; for (const pattern of patterns) { // Check if already included const key = IS_WINDOWS ? pattern.searchPath.toUpperCase() : pattern.searchPath; if (searchPathMap[key] === 'included') { continue; } // Check for an ancestor search path let foundAncestor = false; let tempKey = key; let parent = pathHelper.dirname(tempKey); while (parent !== tempKey) { if (searchPathMap[parent]) { foundAncestor = true; break; } tempKey = parent; parent = pathHelper.dirname(tempKey); } // Include the search pattern in the result if (!foundAncestor) { result.push(pattern.searchPath); searchPathMap[key] = 'included'; } } return result; } exports.getSearchPaths = getSearchPaths; /** * Matches the patterns against the path */ function match(patterns, itemPath) { let result = internal_match_kind_1.MatchKind.None; for (const pattern of patterns) { if (pattern.negate) { result &= ~pattern.match(itemPath); } else { result |= pattern.match(itemPath); } } return result; } exports.match = match; /** * Checks whether to descend further into the directory */ function partialMatch(patterns, itemPath) { return patterns.some(x => !x.negate && x.partialMatch(itemPath)); } exports.partialMatch = partialMatch; //# sourceMappingURL=internal-pattern-helper.js.map /***/ }), /***/ 64536: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } }); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; var __importDefault = (this && this.__importDefault) || function (mod) { return (mod && mod.__esModule) ? mod : { "default": mod }; }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.Pattern = void 0; const os = __importStar(__nccwpck_require__(22037)); const path = __importStar(__nccwpck_require__(71017)); const pathHelper = __importStar(__nccwpck_require__(1849)); const assert_1 = __importDefault(__nccwpck_require__(39491)); const minimatch_1 = __nccwpck_require__(83973); const internal_match_kind_1 = __nccwpck_require__(81063); const internal_path_1 = __nccwpck_require__(96836); const IS_WINDOWS = process.platform === 'win32'; class Pattern { constructor(patternOrNegate, isImplicitPattern = false, segments, homedir) { /** * Indicates whether matches should be excluded from the result set */ this.negate = false; // Pattern overload let pattern; if (typeof patternOrNegate === 'string') { pattern = patternOrNegate.trim(); } // Segments overload else { // Convert to pattern segments = segments || []; assert_1.default(segments.length, `Parameter 'segments' must not empty`); const root = Pattern.getLiteral(segments[0]); assert_1.default(root && pathHelper.hasAbsoluteRoot(root), `Parameter 'segments' first element must be a root path`); pattern = new internal_path_1.Path(segments).toString().trim(); if (patternOrNegate) { pattern = `!${pattern}`; } } // Negate while (pattern.startsWith('!')) { this.negate = !this.negate; pattern = pattern.substr(1).trim(); } // Normalize slashes and ensures absolute root pattern = Pattern.fixupPattern(pattern, homedir); // Segments this.segments = new internal_path_1.Path(pattern).segments; // Trailing slash indicates the pattern should only match directories, not regular files this.trailingSeparator = pathHelper .normalizeSeparators(pattern) .endsWith(path.sep); pattern = pathHelper.safeTrimTrailingSeparator(pattern); // Search path (literal path prior to the first glob segment) let foundGlob = false; const searchSegments = this.segments .map(x => Pattern.getLiteral(x)) .filter(x => !foundGlob && !(foundGlob = x === '')); this.searchPath = new internal_path_1.Path(searchSegments).toString(); // Root RegExp (required when determining partial match) this.rootRegExp = new RegExp(Pattern.regExpEscape(searchSegments[0]), IS_WINDOWS ? 'i' : ''); this.isImplicitPattern = isImplicitPattern; // Create minimatch const minimatchOptions = { dot: true, nobrace: true, nocase: IS_WINDOWS, nocomment: true, noext: true, nonegate: true }; pattern = IS_WINDOWS ? pattern.replace(/\\/g, '/') : pattern; this.minimatch = new minimatch_1.Minimatch(pattern, minimatchOptions); } /** * Matches the pattern against the specified path */ match(itemPath) { // Last segment is globstar? if (this.segments[this.segments.length - 1] === '**') { // Normalize slashes itemPath = pathHelper.normalizeSeparators(itemPath); // Append a trailing slash. Otherwise Minimatch will not match the directory immediately // preceding the globstar. For example, given the pattern `/foo/**`, Minimatch returns // false for `/foo` but returns true for `/foo/`. Append a trailing slash to handle that quirk. if (!itemPath.endsWith(path.sep) && this.isImplicitPattern === false) { // Note, this is safe because the constructor ensures the pattern has an absolute root. // For example, formats like C: and C:foo on Windows are resolved to an absolute root. itemPath = `${itemPath}${path.sep}`; } } else { // Normalize slashes and trim unnecessary trailing slash itemPath = pathHelper.safeTrimTrailingSeparator(itemPath); } // Match if (this.minimatch.match(itemPath)) { return this.trailingSeparator ? internal_match_kind_1.MatchKind.Directory : internal_match_kind_1.MatchKind.All; } return internal_match_kind_1.MatchKind.None; } /** * Indicates whether the pattern may match descendants of the specified path */ partialMatch(itemPath) { // Normalize slashes and trim unnecessary trailing slash itemPath = pathHelper.safeTrimTrailingSeparator(itemPath); // matchOne does not handle root path correctly if (pathHelper.dirname(itemPath) === itemPath) { return this.rootRegExp.test(itemPath); } return this.minimatch.matchOne(itemPath.split(IS_WINDOWS ? /\\+/ : /\/+/), this.minimatch.set[0], true); } /** * Escapes glob patterns within a path */ static globEscape(s) { return (IS_WINDOWS ? s : s.replace(/\\/g, '\\\\')) // escape '\' on Linux/macOS .replace(/(\[)(?=[^/]+\])/g, '[[]') // escape '[' when ']' follows within the path segment .replace(/\?/g, '[?]') // escape '?' .replace(/\*/g, '[*]'); // escape '*' } /** * Normalizes slashes and ensures absolute root */ static fixupPattern(pattern, homedir) { // Empty assert_1.default(pattern, 'pattern cannot be empty'); // Must not contain `.` segment, unless first segment // Must not contain `..` segment const literalSegments = new internal_path_1.Path(pattern).segments.map(x => Pattern.getLiteral(x)); assert_1.default(literalSegments.every((x, i) => (x !== '.' || i === 0) && x !== '..'), `Invalid pattern '${pattern}'. Relative pathing '.' and '..' is not allowed.`); // Must not contain globs in root, e.g. Windows UNC path \\foo\b*r assert_1.default(!pathHelper.hasRoot(pattern) || literalSegments[0], `Invalid pattern '${pattern}'. Root segment must not contain globs.`); // Normalize slashes pattern = pathHelper.normalizeSeparators(pattern); // Replace leading `.` segment if (pattern === '.' || pattern.startsWith(`.${path.sep}`)) { pattern = Pattern.globEscape(process.cwd()) + pattern.substr(1); } // Replace leading `~` segment else if (pattern === '~' || pattern.startsWith(`~${path.sep}`)) { homedir = homedir || os.homedir(); assert_1.default(homedir, 'Unable to determine HOME directory'); assert_1.default(pathHelper.hasAbsoluteRoot(homedir), `Expected HOME directory to be a rooted path. Actual '${homedir}'`); pattern = Pattern.globEscape(homedir) + pattern.substr(1); } // Replace relative drive root, e.g. pattern is C: or C:foo else if (IS_WINDOWS && (pattern.match(/^[A-Z]:$/i) || pattern.match(/^[A-Z]:[^\\]/i))) { let root = pathHelper.ensureAbsoluteRoot('C:\\dummy-root', pattern.substr(0, 2)); if (pattern.length > 2 && !root.endsWith('\\')) { root += '\\'; } pattern = Pattern.globEscape(root) + pattern.substr(2); } // Replace relative root, e.g. pattern is \ or \foo else if (IS_WINDOWS && (pattern === '\\' || pattern.match(/^\\[^\\]/))) { let root = pathHelper.ensureAbsoluteRoot('C:\\dummy-root', '\\'); if (!root.endsWith('\\')) { root += '\\'; } pattern = Pattern.globEscape(root) + pattern.substr(1); } // Otherwise ensure absolute root else { pattern = pathHelper.ensureAbsoluteRoot(Pattern.globEscape(process.cwd()), pattern); } return pathHelper.normalizeSeparators(pattern); } /** * Attempts to unescape a pattern segment to create a literal path segment. * Otherwise returns empty string. */ static getLiteral(segment) { let literal = ''; for (let i = 0; i < segment.length; i++) { const c = segment[i]; // Escape if (c === '\\' && !IS_WINDOWS && i + 1 < segment.length) { literal += segment[++i]; continue; } // Wildcard else if (c === '*' || c === '?') { return ''; } // Character set else if (c === '[' && i + 1 < segment.length) { let set = ''; let closed = -1; for (let i2 = i + 1; i2 < segment.length; i2++) { const c2 = segment[i2]; // Escape if (c2 === '\\' && !IS_WINDOWS && i2 + 1 < segment.length) { set += segment[++i2]; continue; } // Closed else if (c2 === ']') { closed = i2; break; } // Otherwise else { set += c2; } } // Closed? if (closed >= 0) { // Cannot convert if (set.length > 1) { return ''; } // Convert to literal if (set) { literal += set; i = closed; continue; } } // Otherwise fall thru } // Append literal += c; } return literal; } /** * Escapes regexp special characters * https://javascript.info/regexp-escaping */ static regExpEscape(s) { return s.replace(/[[\\^$.|?*+()]/g, '\\$&'); } } exports.Pattern = Pattern; //# sourceMappingURL=internal-pattern.js.map /***/ }), /***/ 89117: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.SearchState = void 0; class SearchState { constructor(path, level) { this.path = path; this.level = level; } } exports.SearchState = SearchState; //# sourceMappingURL=internal-search-state.js.map /***/ }), /***/ 39925: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); const http = __nccwpck_require__(13685); const https = __nccwpck_require__(95687); const pm = __nccwpck_require__(16443); let tunnel; var HttpCodes; (function (HttpCodes) { HttpCodes[HttpCodes["OK"] = 200] = "OK"; HttpCodes[HttpCodes["MultipleChoices"] = 300] = "MultipleChoices"; HttpCodes[HttpCodes["MovedPermanently"] = 301] = "MovedPermanently"; HttpCodes[HttpCodes["ResourceMoved"] = 302] = "ResourceMoved"; HttpCodes[HttpCodes["SeeOther"] = 303] = "SeeOther"; HttpCodes[HttpCodes["NotModified"] = 304] = "NotModified"; HttpCodes[HttpCodes["UseProxy"] = 305] = "UseProxy"; HttpCodes[HttpCodes["SwitchProxy"] = 306] = "SwitchProxy"; HttpCodes[HttpCodes["TemporaryRedirect"] = 307] = "TemporaryRedirect"; HttpCodes[HttpCodes["PermanentRedirect"] = 308] = "PermanentRedirect"; HttpCodes[HttpCodes["BadRequest"] = 400] = "BadRequest"; HttpCodes[HttpCodes["Unauthorized"] = 401] = "Unauthorized"; HttpCodes[HttpCodes["PaymentRequired"] = 402] = "PaymentRequired"; HttpCodes[HttpCodes["Forbidden"] = 403] = "Forbidden"; HttpCodes[HttpCodes["NotFound"] = 404] = "NotFound"; HttpCodes[HttpCodes["MethodNotAllowed"] = 405] = "MethodNotAllowed"; HttpCodes[HttpCodes["NotAcceptable"] = 406] = "NotAcceptable"; HttpCodes[HttpCodes["ProxyAuthenticationRequired"] = 407] = "ProxyAuthenticationRequired"; HttpCodes[HttpCodes["RequestTimeout"] = 408] = "RequestTimeout"; HttpCodes[HttpCodes["Conflict"] = 409] = "Conflict"; HttpCodes[HttpCodes["Gone"] = 410] = "Gone"; HttpCodes[HttpCodes["TooManyRequests"] = 429] = "TooManyRequests"; HttpCodes[HttpCodes["InternalServerError"] = 500] = "InternalServerError"; HttpCodes[HttpCodes["NotImplemented"] = 501] = "NotImplemented"; HttpCodes[HttpCodes["BadGateway"] = 502] = "BadGateway"; HttpCodes[HttpCodes["ServiceUnavailable"] = 503] = "ServiceUnavailable"; HttpCodes[HttpCodes["GatewayTimeout"] = 504] = "GatewayTimeout"; })(HttpCodes = exports.HttpCodes || (exports.HttpCodes = {})); var Headers; (function (Headers) { Headers["Accept"] = "accept"; Headers["ContentType"] = "content-type"; })(Headers = exports.Headers || (exports.Headers = {})); var MediaTypes; (function (MediaTypes) { MediaTypes["ApplicationJson"] = "application/json"; })(MediaTypes = exports.MediaTypes || (exports.MediaTypes = {})); /** * Returns the proxy URL, depending upon the supplied url and proxy environment variables. * @param serverUrl The server URL where the request will be sent. For example, https://api.github.com */ function getProxyUrl(serverUrl) { let proxyUrl = pm.getProxyUrl(new URL(serverUrl)); return proxyUrl ? proxyUrl.href : ''; } exports.getProxyUrl = getProxyUrl; const HttpRedirectCodes = [ HttpCodes.MovedPermanently, HttpCodes.ResourceMoved, HttpCodes.SeeOther, HttpCodes.TemporaryRedirect, HttpCodes.PermanentRedirect ]; const HttpResponseRetryCodes = [ HttpCodes.BadGateway, HttpCodes.ServiceUnavailable, HttpCodes.GatewayTimeout ]; const RetryableHttpVerbs = ['OPTIONS', 'GET', 'DELETE', 'HEAD']; const ExponentialBackoffCeiling = 10; const ExponentialBackoffTimeSlice = 5; class HttpClientError extends Error { constructor(message, statusCode) { super(message); this.name = 'HttpClientError'; this.statusCode = statusCode; Object.setPrototypeOf(this, HttpClientError.prototype); } } exports.HttpClientError = HttpClientError; class HttpClientResponse { constructor(message) { this.message = message; } readBody() { return new Promise(async (resolve, reject) => { let output = Buffer.alloc(0); this.message.on('data', (chunk) => { output = Buffer.concat([output, chunk]); }); this.message.on('end', () => { resolve(output.toString()); }); }); } } exports.HttpClientResponse = HttpClientResponse; function isHttps(requestUrl) { let parsedUrl = new URL(requestUrl); return parsedUrl.protocol === 'https:'; } exports.isHttps = isHttps; class HttpClient { constructor(userAgent, handlers, requestOptions) { this._ignoreSslError = false; this._allowRedirects = true; this._allowRedirectDowngrade = false; this._maxRedirects = 50; this._allowRetries = false; this._maxRetries = 1; this._keepAlive = false; this._disposed = false; this.userAgent = userAgent; this.handlers = handlers || []; this.requestOptions = requestOptions; if (requestOptions) { if (requestOptions.ignoreSslError != null) { this._ignoreSslError = requestOptions.ignoreSslError; } this._socketTimeout = requestOptions.socketTimeout; if (requestOptions.allowRedirects != null) { this._allowRedirects = requestOptions.allowRedirects; } if (requestOptions.allowRedirectDowngrade != null) { this._allowRedirectDowngrade = requestOptions.allowRedirectDowngrade; } if (requestOptions.maxRedirects != null) { this._maxRedirects = Math.max(requestOptions.maxRedirects, 0); } if (requestOptions.keepAlive != null) { this._keepAlive = requestOptions.keepAlive; } if (requestOptions.allowRetries != null) { this._allowRetries = requestOptions.allowRetries; } if (requestOptions.maxRetries != null) { this._maxRetries = requestOptions.maxRetries; } } } options(requestUrl, additionalHeaders) { return this.request('OPTIONS', requestUrl, null, additionalHeaders || {}); } get(requestUrl, additionalHeaders) { return this.request('GET', requestUrl, null, additionalHeaders || {}); } del(requestUrl, additionalHeaders) { return this.request('DELETE', requestUrl, null, additionalHeaders || {}); } post(requestUrl, data, additionalHeaders) { return this.request('POST', requestUrl, data, additionalHeaders || {}); } patch(requestUrl, data, additionalHeaders) { return this.request('PATCH', requestUrl, data, additionalHeaders || {}); } put(requestUrl, data, additionalHeaders) { return this.request('PUT', requestUrl, data, additionalHeaders || {}); } head(requestUrl, additionalHeaders) { return this.request('HEAD', requestUrl, null, additionalHeaders || {}); } sendStream(verb, requestUrl, stream, additionalHeaders) { return this.request(verb, requestUrl, stream, additionalHeaders); } /** * Gets a typed object from an endpoint * Be aware that not found returns a null. Other errors (4xx, 5xx) reject the promise */ async getJson(requestUrl, additionalHeaders = {}) { additionalHeaders[Headers.Accept] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.Accept, MediaTypes.ApplicationJson); let res = await this.get(requestUrl, additionalHeaders); return this._processResponse(res, this.requestOptions); } async postJson(requestUrl, obj, additionalHeaders = {}) { let data = JSON.stringify(obj, null, 2); additionalHeaders[Headers.Accept] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.Accept, MediaTypes.ApplicationJson); additionalHeaders[Headers.ContentType] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.ContentType, MediaTypes.ApplicationJson); let res = await this.post(requestUrl, data, additionalHeaders); return this._processResponse(res, this.requestOptions); } async putJson(requestUrl, obj, additionalHeaders = {}) { let data = JSON.stringify(obj, null, 2); additionalHeaders[Headers.Accept] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.Accept, MediaTypes.ApplicationJson); additionalHeaders[Headers.ContentType] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.ContentType, MediaTypes.ApplicationJson); let res = await this.put(requestUrl, data, additionalHeaders); return this._processResponse(res, this.requestOptions); } async patchJson(requestUrl, obj, additionalHeaders = {}) { let data = JSON.stringify(obj, null, 2); additionalHeaders[Headers.Accept] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.Accept, MediaTypes.ApplicationJson); additionalHeaders[Headers.ContentType] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.ContentType, MediaTypes.ApplicationJson); let res = await this.patch(requestUrl, data, additionalHeaders); return this._processResponse(res, this.requestOptions); } /** * Makes a raw http request. * All other methods such as get, post, patch, and request ultimately call this. * Prefer get, del, post and patch */ async request(verb, requestUrl, data, headers) { if (this._disposed) { throw new Error('Client has already been disposed.'); } let parsedUrl = new URL(requestUrl); let info = this._prepareRequest(verb, parsedUrl, headers); // Only perform retries on reads since writes may not be idempotent. let maxTries = this._allowRetries && RetryableHttpVerbs.indexOf(verb) != -1 ? this._maxRetries + 1 : 1; let numTries = 0; let response; while (numTries < maxTries) { response = await this.requestRaw(info, data); // Check if it's an authentication challenge if (response && response.message && response.message.statusCode === HttpCodes.Unauthorized) { let authenticationHandler; for (let i = 0; i < this.handlers.length; i++) { if (this.handlers[i].canHandleAuthentication(response)) { authenticationHandler = this.handlers[i]; break; } } if (authenticationHandler) { return authenticationHandler.handleAuthentication(this, info, data); } else { // We have received an unauthorized response but have no handlers to handle it. // Let the response return to the caller. return response; } } let redirectsRemaining = this._maxRedirects; while (HttpRedirectCodes.indexOf(response.message.statusCode) != -1 && this._allowRedirects && redirectsRemaining > 0) { const redirectUrl = response.message.headers['location']; if (!redirectUrl) { // if there's no location to redirect to, we won't break; } let parsedRedirectUrl = new URL(redirectUrl); if (parsedUrl.protocol == 'https:' && parsedUrl.protocol != parsedRedirectUrl.protocol && !this._allowRedirectDowngrade) { throw new Error('Redirect from HTTPS to HTTP protocol. This downgrade is not allowed for security reasons. If you want to allow this behavior, set the allowRedirectDowngrade option to true.'); } // we need to finish reading the response before reassigning response // which will leak the open socket. await response.readBody(); // strip authorization header if redirected to a different hostname if (parsedRedirectUrl.hostname !== parsedUrl.hostname) { for (let header in headers) { // header names are case insensitive if (header.toLowerCase() === 'authorization') { delete headers[header]; } } } // let's make the request with the new redirectUrl info = this._prepareRequest(verb, parsedRedirectUrl, headers); response = await this.requestRaw(info, data); redirectsRemaining--; } if (HttpResponseRetryCodes.indexOf(response.message.statusCode) == -1) { // If not a retry code, return immediately instead of retrying return response; } numTries += 1; if (numTries < maxTries) { await response.readBody(); await this._performExponentialBackoff(numTries); } } return response; } /** * Needs to be called if keepAlive is set to true in request options. */ dispose() { if (this._agent) { this._agent.destroy(); } this._disposed = true; } /** * Raw request. * @param info * @param data */ requestRaw(info, data) { return new Promise((resolve, reject) => { let callbackForResult = function (err, res) { if (err) { reject(err); } resolve(res); }; this.requestRawWithCallback(info, data, callbackForResult); }); } /** * Raw request with callback. * @param info * @param data * @param onResult */ requestRawWithCallback(info, data, onResult) { let socket; if (typeof data === 'string') { info.options.headers['Content-Length'] = Buffer.byteLength(data, 'utf8'); } let callbackCalled = false; let handleResult = (err, res) => { if (!callbackCalled) { callbackCalled = true; onResult(err, res); } }; let req = info.httpModule.request(info.options, (msg) => { let res = new HttpClientResponse(msg); handleResult(null, res); }); req.on('socket', sock => { socket = sock; }); // If we ever get disconnected, we want the socket to timeout eventually req.setTimeout(this._socketTimeout || 3 * 60000, () => { if (socket) { socket.end(); } handleResult(new Error('Request timeout: ' + info.options.path), null); }); req.on('error', function (err) { // err has statusCode property // res should have headers handleResult(err, null); }); if (data && typeof data === 'string') { req.write(data, 'utf8'); } if (data && typeof data !== 'string') { data.on('close', function () { req.end(); }); data.pipe(req); } else { req.end(); } } /** * Gets an http agent. This function is useful when you need an http agent that handles * routing through a proxy server - depending upon the url and proxy environment variables. * @param serverUrl The server URL where the request will be sent. For example, https://api.github.com */ getAgent(serverUrl) { let parsedUrl = new URL(serverUrl); return this._getAgent(parsedUrl); } _prepareRequest(method, requestUrl, headers) { const info = {}; info.parsedUrl = requestUrl; const usingSsl = info.parsedUrl.protocol === 'https:'; info.httpModule = usingSsl ? https : http; const defaultPort = usingSsl ? 443 : 80; info.options = {}; info.options.host = info.parsedUrl.hostname; info.options.port = info.parsedUrl.port ? parseInt(info.parsedUrl.port) : defaultPort; info.options.path = (info.parsedUrl.pathname || '') + (info.parsedUrl.search || ''); info.options.method = method; info.options.headers = this._mergeHeaders(headers); if (this.userAgent != null) { info.options.headers['user-agent'] = this.userAgent; } info.options.agent = this._getAgent(info.parsedUrl); // gives handlers an opportunity to participate if (this.handlers) { this.handlers.forEach(handler => { handler.prepareRequest(info.options); }); } return info; } _mergeHeaders(headers) { const lowercaseKeys = obj => Object.keys(obj).reduce((c, k) => ((c[k.toLowerCase()] = obj[k]), c), {}); if (this.requestOptions && this.requestOptions.headers) { return Object.assign({}, lowercaseKeys(this.requestOptions.headers), lowercaseKeys(headers)); } return lowercaseKeys(headers || {}); } _getExistingOrDefaultHeader(additionalHeaders, header, _default) { const lowercaseKeys = obj => Object.keys(obj).reduce((c, k) => ((c[k.toLowerCase()] = obj[k]), c), {}); let clientHeader; if (this.requestOptions && this.requestOptions.headers) { clientHeader = lowercaseKeys(this.requestOptions.headers)[header]; } return additionalHeaders[header] || clientHeader || _default; } _getAgent(parsedUrl) { let agent; let proxyUrl = pm.getProxyUrl(parsedUrl); let useProxy = proxyUrl && proxyUrl.hostname; if (this._keepAlive && useProxy) { agent = this._proxyAgent; } if (this._keepAlive && !useProxy) { agent = this._agent; } // if agent is already assigned use that agent. if (!!agent) { return agent; } const usingSsl = parsedUrl.protocol === 'https:'; let maxSockets = 100; if (!!this.requestOptions) { maxSockets = this.requestOptions.maxSockets || http.globalAgent.maxSockets; } if (useProxy) { // If using proxy, need tunnel if (!tunnel) { tunnel = __nccwpck_require__(74294); } const agentOptions = { maxSockets: maxSockets, keepAlive: this._keepAlive, proxy: { ...((proxyUrl.username || proxyUrl.password) && { proxyAuth: `${proxyUrl.username}:${proxyUrl.password}` }), host: proxyUrl.hostname, port: proxyUrl.port } }; let tunnelAgent; const overHttps = proxyUrl.protocol === 'https:'; if (usingSsl) { tunnelAgent = overHttps ? tunnel.httpsOverHttps : tunnel.httpsOverHttp; } else { tunnelAgent = overHttps ? tunnel.httpOverHttps : tunnel.httpOverHttp; } agent = tunnelAgent(agentOptions); this._proxyAgent = agent; } // if reusing agent across request and tunneling agent isn't assigned create a new agent if (this._keepAlive && !agent) { const options = { keepAlive: this._keepAlive, maxSockets: maxSockets }; agent = usingSsl ? new https.Agent(options) : new http.Agent(options); this._agent = agent; } // if not using private agent and tunnel agent isn't setup then use global agent if (!agent) { agent = usingSsl ? https.globalAgent : http.globalAgent; } if (usingSsl && this._ignoreSslError) { // we don't want to set NODE_TLS_REJECT_UNAUTHORIZED=0 since that will affect request for entire process // http.RequestOptions doesn't expose a way to modify RequestOptions.agent.options // we have to cast it to any and change it directly agent.options = Object.assign(agent.options || {}, { rejectUnauthorized: false }); } return agent; } _performExponentialBackoff(retryNumber) { retryNumber = Math.min(ExponentialBackoffCeiling, retryNumber); const ms = ExponentialBackoffTimeSlice * Math.pow(2, retryNumber); return new Promise(resolve => setTimeout(() => resolve(), ms)); } static dateTimeDeserializer(key, value) { if (typeof value === 'string') { let a = new Date(value); if (!isNaN(a.valueOf())) { return a; } } return value; } async _processResponse(res, options) { return new Promise(async (resolve, reject) => { const statusCode = res.message.statusCode; const response = { statusCode: statusCode, result: null, headers: {} }; // not found leads to null obj returned if (statusCode == HttpCodes.NotFound) { resolve(response); } let obj; let contents; // get the result from the body try { contents = await res.readBody(); if (contents && contents.length > 0) { if (options && options.deserializeDates) { obj = JSON.parse(contents, HttpClient.dateTimeDeserializer); } else { obj = JSON.parse(contents); } response.result = obj; } response.headers = res.message.headers; } catch (err) { // Invalid resource (contents not json); leaving result obj null } // note that 3xx redirects are handled by the http layer. if (statusCode > 299) { let msg; // if exception/error in body, attempt to get better error if (obj && obj.message) { msg = obj.message; } else if (contents && contents.length > 0) { // it may be the case that the exception is in the body message as string msg = contents; } else { msg = 'Failed request: (' + statusCode + ')'; } let err = new HttpClientError(msg, statusCode); err.result = response.result; reject(err); } else { resolve(response); } }); } } exports.HttpClient = HttpClient; /***/ }), /***/ 16443: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); function getProxyUrl(reqUrl) { let usingSsl = reqUrl.protocol === 'https:'; let proxyUrl; if (checkBypass(reqUrl)) { return proxyUrl; } let proxyVar; if (usingSsl) { proxyVar = process.env['https_proxy'] || process.env['HTTPS_PROXY']; } else { proxyVar = process.env['http_proxy'] || process.env['HTTP_PROXY']; } if (proxyVar) { proxyUrl = new URL(proxyVar); } return proxyUrl; } exports.getProxyUrl = getProxyUrl; function checkBypass(reqUrl) { if (!reqUrl.hostname) { return false; } let noProxy = process.env['no_proxy'] || process.env['NO_PROXY'] || ''; if (!noProxy) { return false; } // Determine the request port let reqPort; if (reqUrl.port) { reqPort = Number(reqUrl.port); } else if (reqUrl.protocol === 'http:') { reqPort = 80; } else if (reqUrl.protocol === 'https:') { reqPort = 443; } // Format the request hostname and hostname with port let upperReqHosts = [reqUrl.hostname.toUpperCase()]; if (typeof reqPort === 'number') { upperReqHosts.push(`${upperReqHosts[0]}:${reqPort}`); } // Compare request host against noproxy for (let upperNoProxyItem of noProxy .split(',') .map(x => x.trim().toUpperCase()) .filter(x => x)) { if (upperReqHosts.some(x => x === upperNoProxyItem)) { return true; } } return false; } exports.checkBypass = checkBypass; /***/ }), /***/ 81962: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; var _a; Object.defineProperty(exports, "__esModule", ({ value: true })); const assert_1 = __nccwpck_require__(39491); const fs = __nccwpck_require__(57147); const path = __nccwpck_require__(71017); _a = fs.promises, exports.chmod = _a.chmod, exports.copyFile = _a.copyFile, exports.lstat = _a.lstat, exports.mkdir = _a.mkdir, exports.readdir = _a.readdir, exports.readlink = _a.readlink, exports.rename = _a.rename, exports.rmdir = _a.rmdir, exports.stat = _a.stat, exports.symlink = _a.symlink, exports.unlink = _a.unlink; exports.IS_WINDOWS = process.platform === 'win32'; function exists(fsPath) { return __awaiter(this, void 0, void 0, function* () { try { yield exports.stat(fsPath); } catch (err) { if (err.code === 'ENOENT') { return false; } throw err; } return true; }); } exports.exists = exists; function isDirectory(fsPath, useStat = false) { return __awaiter(this, void 0, void 0, function* () { const stats = useStat ? yield exports.stat(fsPath) : yield exports.lstat(fsPath); return stats.isDirectory(); }); } exports.isDirectory = isDirectory; /** * On OSX/Linux, true if path starts with '/'. On Windows, true for paths like: * \, \hello, \\hello\share, C:, and C:\hello (and corresponding alternate separator cases). */ function isRooted(p) { p = normalizeSeparators(p); if (!p) { throw new Error('isRooted() parameter "p" cannot be empty'); } if (exports.IS_WINDOWS) { return (p.startsWith('\\') || /^[A-Z]:/i.test(p) // e.g. \ or \hello or \\hello ); // e.g. C: or C:\hello } return p.startsWith('/'); } exports.isRooted = isRooted; /** * Recursively create a directory at `fsPath`. * * This implementation is optimistic, meaning it attempts to create the full * path first, and backs up the path stack from there. * * @param fsPath The path to create * @param maxDepth The maximum recursion depth * @param depth The current recursion depth */ function mkdirP(fsPath, maxDepth = 1000, depth = 1) { return __awaiter(this, void 0, void 0, function* () { assert_1.ok(fsPath, 'a path argument must be provided'); fsPath = path.resolve(fsPath); if (depth >= maxDepth) return exports.mkdir(fsPath); try { yield exports.mkdir(fsPath); return; } catch (err) { switch (err.code) { case 'ENOENT': { yield mkdirP(path.dirname(fsPath), maxDepth, depth + 1); yield exports.mkdir(fsPath); return; } default: { let stats; try { stats = yield exports.stat(fsPath); } catch (err2) { throw err; } if (!stats.isDirectory()) throw err; } } } }); } exports.mkdirP = mkdirP; /** * Best effort attempt to determine whether a file exists and is executable. * @param filePath file path to check * @param extensions additional file extensions to try * @return if file exists and is executable, returns the file path. otherwise empty string. */ function tryGetExecutablePath(filePath, extensions) { return __awaiter(this, void 0, void 0, function* () { let stats = undefined; try { // test file exists stats = yield exports.stat(filePath); } catch (err) { if (err.code !== 'ENOENT') { // eslint-disable-next-line no-console console.log(`Unexpected error attempting to determine if executable file exists '${filePath}': ${err}`); } } if (stats && stats.isFile()) { if (exports.IS_WINDOWS) { // on Windows, test for valid extension const upperExt = path.extname(filePath).toUpperCase(); if (extensions.some(validExt => validExt.toUpperCase() === upperExt)) { return filePath; } } else { if (isUnixExecutable(stats)) { return filePath; } } } // try each extension const originalFilePath = filePath; for (const extension of extensions) { filePath = originalFilePath + extension; stats = undefined; try { stats = yield exports.stat(filePath); } catch (err) { if (err.code !== 'ENOENT') { // eslint-disable-next-line no-console console.log(`Unexpected error attempting to determine if executable file exists '${filePath}': ${err}`); } } if (stats && stats.isFile()) { if (exports.IS_WINDOWS) { // preserve the case of the actual file (since an extension was appended) try { const directory = path.dirname(filePath); const upperName = path.basename(filePath).toUpperCase(); for (const actualName of yield exports.readdir(directory)) { if (upperName === actualName.toUpperCase()) { filePath = path.join(directory, actualName); break; } } } catch (err) { // eslint-disable-next-line no-console console.log(`Unexpected error attempting to determine the actual case of the file '${filePath}': ${err}`); } return filePath; } else { if (isUnixExecutable(stats)) { return filePath; } } } } return ''; }); } exports.tryGetExecutablePath = tryGetExecutablePath; function normalizeSeparators(p) { p = p || ''; if (exports.IS_WINDOWS) { // convert slashes on Windows p = p.replace(/\//g, '\\'); // remove redundant slashes return p.replace(/\\\\+/g, '\\'); } // remove redundant slashes return p.replace(/\/\/+/g, '/'); } // on Mac/Linux, test the execute bit // R W X R W X R W X // 256 128 64 32 16 8 4 2 1 function isUnixExecutable(stats) { return ((stats.mode & 1) > 0 || ((stats.mode & 8) > 0 && stats.gid === process.getgid()) || ((stats.mode & 64) > 0 && stats.uid === process.getuid())); } //# sourceMappingURL=io-util.js.map /***/ }), /***/ 47351: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; Object.defineProperty(exports, "__esModule", ({ value: true })); const childProcess = __nccwpck_require__(32081); const path = __nccwpck_require__(71017); const util_1 = __nccwpck_require__(73837); const ioUtil = __nccwpck_require__(81962); const exec = util_1.promisify(childProcess.exec); /** * Copies a file or folder. * Based off of shelljs - https://github.com/shelljs/shelljs/blob/9237f66c52e5daa40458f94f9565e18e8132f5a6/src/cp.js * * @param source source path * @param dest destination path * @param options optional. See CopyOptions. */ function cp(source, dest, options = {}) { return __awaiter(this, void 0, void 0, function* () { const { force, recursive } = readCopyOptions(options); const destStat = (yield ioUtil.exists(dest)) ? yield ioUtil.stat(dest) : null; // Dest is an existing file, but not forcing if (destStat && destStat.isFile() && !force) { return; } // If dest is an existing directory, should copy inside. const newDest = destStat && destStat.isDirectory() ? path.join(dest, path.basename(source)) : dest; if (!(yield ioUtil.exists(source))) { throw new Error(`no such file or directory: ${source}`); } const sourceStat = yield ioUtil.stat(source); if (sourceStat.isDirectory()) { if (!recursive) { throw new Error(`Failed to copy. ${source} is a directory, but tried to copy without recursive flag.`); } else { yield cpDirRecursive(source, newDest, 0, force); } } else { if (path.relative(source, newDest) === '') { // a file cannot be copied to itself throw new Error(`'${newDest}' and '${source}' are the same file`); } yield copyFile(source, newDest, force); } }); } exports.cp = cp; /** * Moves a path. * * @param source source path * @param dest destination path * @param options optional. See MoveOptions. */ function mv(source, dest, options = {}) { return __awaiter(this, void 0, void 0, function* () { if (yield ioUtil.exists(dest)) { let destExists = true; if (yield ioUtil.isDirectory(dest)) { // If dest is directory copy src into dest dest = path.join(dest, path.basename(source)); destExists = yield ioUtil.exists(dest); } if (destExists) { if (options.force == null || options.force) { yield rmRF(dest); } else { throw new Error('Destination already exists'); } } } yield mkdirP(path.dirname(dest)); yield ioUtil.rename(source, dest); }); } exports.mv = mv; /** * Remove a path recursively with force * * @param inputPath path to remove */ function rmRF(inputPath) { return __awaiter(this, void 0, void 0, function* () { if (ioUtil.IS_WINDOWS) { // Node doesn't provide a delete operation, only an unlink function. This means that if the file is being used by another // program (e.g. antivirus), it won't be deleted. To address this, we shell out the work to rd/del. try { if (yield ioUtil.isDirectory(inputPath, true)) { yield exec(`rd /s /q "${inputPath}"`); } else { yield exec(`del /f /a "${inputPath}"`); } } catch (err) { // if you try to delete a file that doesn't exist, desired result is achieved // other errors are valid if (err.code !== 'ENOENT') throw err; } // Shelling out fails to remove a symlink folder with missing source, this unlink catches that try { yield ioUtil.unlink(inputPath); } catch (err) { // if you try to delete a file that doesn't exist, desired result is achieved // other errors are valid if (err.code !== 'ENOENT') throw err; } } else { let isDir = false; try { isDir = yield ioUtil.isDirectory(inputPath); } catch (err) { // if you try to delete a file that doesn't exist, desired result is achieved // other errors are valid if (err.code !== 'ENOENT') throw err; return; } if (isDir) { yield exec(`rm -rf "${inputPath}"`); } else { yield ioUtil.unlink(inputPath); } } }); } exports.rmRF = rmRF; /** * Make a directory. Creates the full path with folders in between * Will throw if it fails * * @param fsPath path to create * @returns Promise */ function mkdirP(fsPath) { return __awaiter(this, void 0, void 0, function* () { yield ioUtil.mkdirP(fsPath); }); } exports.mkdirP = mkdirP; /** * Returns path of a tool had the tool actually been invoked. Resolves via paths. * If you check and the tool does not exist, it will throw. * * @param tool name of the tool * @param check whether to check if tool exists * @returns Promise path to tool */ function which(tool, check) { return __awaiter(this, void 0, void 0, function* () { if (!tool) { throw new Error("parameter 'tool' is required"); } // recursive when check=true if (check) { const result = yield which(tool, false); if (!result) { if (ioUtil.IS_WINDOWS) { throw new Error(`Unable to locate executable file: ${tool}. Please verify either the file path exists or the file can be found within a directory specified by the PATH environment variable. Also verify the file has a valid extension for an executable file.`); } else { throw new Error(`Unable to locate executable file: ${tool}. Please verify either the file path exists or the file can be found within a directory specified by the PATH environment variable. Also check the file mode to verify the file is executable.`); } } } try { // build the list of extensions to try const extensions = []; if (ioUtil.IS_WINDOWS && process.env.PATHEXT) { for (const extension of process.env.PATHEXT.split(path.delimiter)) { if (extension) { extensions.push(extension); } } } // if it's rooted, return it if exists. otherwise return empty. if (ioUtil.isRooted(tool)) { const filePath = yield ioUtil.tryGetExecutablePath(tool, extensions); if (filePath) { return filePath; } return ''; } // if any path separators, return empty if (tool.includes('/') || (ioUtil.IS_WINDOWS && tool.includes('\\'))) { return ''; } // build the list of directories // // Note, technically "where" checks the current directory on Windows. From a toolkit perspective, // it feels like we should not do this. Checking the current directory seems like more of a use // case of a shell, and the which() function exposed by the toolkit should strive for consistency // across platforms. const directories = []; if (process.env.PATH) { for (const p of process.env.PATH.split(path.delimiter)) { if (p) { directories.push(p); } } } // return the first match for (const directory of directories) { const filePath = yield ioUtil.tryGetExecutablePath(directory + path.sep + tool, extensions); if (filePath) { return filePath; } } return ''; } catch (err) { throw new Error(`which failed with message ${err.message}`); } }); } exports.which = which; function readCopyOptions(options) { const force = options.force == null ? true : options.force; const recursive = Boolean(options.recursive); return { force, recursive }; } function cpDirRecursive(sourceDir, destDir, currentDepth, force) { return __awaiter(this, void 0, void 0, function* () { // Ensure there is not a run away recursive copy if (currentDepth >= 255) return; currentDepth++; yield mkdirP(destDir); const files = yield ioUtil.readdir(sourceDir); for (const fileName of files) { const srcFile = `${sourceDir}/${fileName}`; const destFile = `${destDir}/${fileName}`; const srcFileStat = yield ioUtil.lstat(srcFile); if (srcFileStat.isDirectory()) { // Recurse yield cpDirRecursive(srcFile, destFile, currentDepth, force); } else { yield copyFile(srcFile, destFile, force); } } // Change the mode for the newly created directory yield ioUtil.chmod(destDir, (yield ioUtil.stat(sourceDir)).mode); }); } // Buffered file copy function copyFile(srcFile, destFile, force) { return __awaiter(this, void 0, void 0, function* () { if ((yield ioUtil.lstat(srcFile)).isSymbolicLink()) { // unlink/re-link it try { yield ioUtil.lstat(destFile); yield ioUtil.unlink(destFile); } catch (e) { // Try to override file permission if (e.code === 'EPERM') { yield ioUtil.chmod(destFile, '0666'); yield ioUtil.unlink(destFile); } // other errors = it doesn't exist, no work to do } // Copy over symlink const symlinkFull = yield ioUtil.readlink(srcFile); yield ioUtil.symlink(symlinkFull, destFile, ioUtil.IS_WINDOWS ? 'junction' : null); } else if (!(yield ioUtil.exists(destFile)) || force) { yield ioUtil.copyFile(srcFile, destFile); } }); } //# sourceMappingURL=io.js.map /***/ }), /***/ 32473: /***/ (function(module, exports, __nccwpck_require__) { "use strict"; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (Object.hasOwnProperty.call(mod, k)) result[k] = mod[k]; result["default"] = mod; return result; }; Object.defineProperty(exports, "__esModule", ({ value: true })); const semver = __importStar(__nccwpck_require__(70562)); const core_1 = __nccwpck_require__(42186); // needs to be require for core node modules to be mocked /* eslint @typescript-eslint/no-require-imports: 0 */ const os = __nccwpck_require__(22037); const cp = __nccwpck_require__(32081); const fs = __nccwpck_require__(57147); function _findMatch(versionSpec, stable, candidates, archFilter) { return __awaiter(this, void 0, void 0, function* () { const platFilter = os.platform(); let result; let match; let file; for (const candidate of candidates) { const version = candidate.version; core_1.debug(`check ${version} satisfies ${versionSpec}`); if (semver.satisfies(version, versionSpec) && (!stable || candidate.stable === stable)) { file = candidate.files.find(item => { core_1.debug(`${item.arch}===${archFilter} && ${item.platform}===${platFilter}`); let chk = item.arch === archFilter && item.platform === platFilter; if (chk && item.platform_version) { const osVersion = module.exports._getOsVersion(); if (osVersion === item.platform_version) { chk = true; } else { chk = semver.satisfies(osVersion, item.platform_version); } } return chk; }); if (file) { core_1.debug(`matched ${candidate.version}`); match = candidate; break; } } } if (match && file) { // clone since we're mutating the file list to be only the file that matches result = Object.assign({}, match); result.files = [file]; } return result; }); } exports._findMatch = _findMatch; function _getOsVersion() { // TODO: add windows and other linux, arm variants // right now filtering on version is only an ubuntu and macos scenario for tools we build for hosted (python) const plat = os.platform(); let version = ''; if (plat === 'darwin') { version = cp.execSync('sw_vers -productVersion').toString(); } else if (plat === 'linux') { // lsb_release process not in some containers, readfile // Run cat /etc/lsb-release // DISTRIB_ID=Ubuntu // DISTRIB_RELEASE=18.04 // DISTRIB_CODENAME=bionic // DISTRIB_DESCRIPTION="Ubuntu 18.04.4 LTS" const lsbContents = module.exports._readLinuxVersionFile(); if (lsbContents) { const lines = lsbContents.split('\n'); for (const line of lines) { const parts = line.split('='); if (parts.length === 2 && parts[0].trim() === 'DISTRIB_RELEASE') { version = parts[1].trim(); break; } } } } return version; } exports._getOsVersion = _getOsVersion; function _readLinuxVersionFile() { const lsbFile = '/etc/lsb-release'; let contents = ''; if (fs.existsSync(lsbFile)) { contents = fs.readFileSync(lsbFile).toString(); } return contents; } exports._readLinuxVersionFile = _readLinuxVersionFile; //# sourceMappingURL=manifest.js.map /***/ }), /***/ 38279: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (Object.hasOwnProperty.call(mod, k)) result[k] = mod[k]; result["default"] = mod; return result; }; Object.defineProperty(exports, "__esModule", ({ value: true })); const core = __importStar(__nccwpck_require__(42186)); /** * Internal class for retries */ class RetryHelper { constructor(maxAttempts, minSeconds, maxSeconds) { if (maxAttempts < 1) { throw new Error('max attempts should be greater than or equal to 1'); } this.maxAttempts = maxAttempts; this.minSeconds = Math.floor(minSeconds); this.maxSeconds = Math.floor(maxSeconds); if (this.minSeconds > this.maxSeconds) { throw new Error('min seconds should be less than or equal to max seconds'); } } execute(action, isRetryable) { return __awaiter(this, void 0, void 0, function* () { let attempt = 1; while (attempt < this.maxAttempts) { // Try try { return yield action(); } catch (err) { if (isRetryable && !isRetryable(err)) { throw err; } core.info(err.message); } // Sleep const seconds = this.getSleepAmount(); core.info(`Waiting ${seconds} seconds before trying again`); yield this.sleep(seconds); attempt++; } // Last attempt return yield action(); }); } getSleepAmount() { return (Math.floor(Math.random() * (this.maxSeconds - this.minSeconds + 1)) + this.minSeconds); } sleep(seconds) { return __awaiter(this, void 0, void 0, function* () { return new Promise(resolve => setTimeout(resolve, seconds * 1000)); }); } } exports.RetryHelper = RetryHelper; //# sourceMappingURL=retry-helper.js.map /***/ }), /***/ 27784: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (Object.hasOwnProperty.call(mod, k)) result[k] = mod[k]; result["default"] = mod; return result; }; var __importDefault = (this && this.__importDefault) || function (mod) { return (mod && mod.__esModule) ? mod : { "default": mod }; }; Object.defineProperty(exports, "__esModule", ({ value: true })); const core = __importStar(__nccwpck_require__(42186)); const io = __importStar(__nccwpck_require__(47351)); const fs = __importStar(__nccwpck_require__(57147)); const mm = __importStar(__nccwpck_require__(32473)); const os = __importStar(__nccwpck_require__(22037)); const path = __importStar(__nccwpck_require__(71017)); const httpm = __importStar(__nccwpck_require__(39925)); const semver = __importStar(__nccwpck_require__(70562)); const stream = __importStar(__nccwpck_require__(12781)); const util = __importStar(__nccwpck_require__(73837)); const v4_1 = __importDefault(__nccwpck_require__(80824)); const exec_1 = __nccwpck_require__(71514); const assert_1 = __nccwpck_require__(39491); const retry_helper_1 = __nccwpck_require__(38279); class HTTPError extends Error { constructor(httpStatusCode) { super(`Unexpected HTTP response: ${httpStatusCode}`); this.httpStatusCode = httpStatusCode; Object.setPrototypeOf(this, new.target.prototype); } } exports.HTTPError = HTTPError; const IS_WINDOWS = process.platform === 'win32'; const IS_MAC = process.platform === 'darwin'; const userAgent = 'actions/tool-cache'; /** * Download a tool from an url and stream it into a file * * @param url url of tool to download * @param dest path to download tool * @param auth authorization header * @returns path to downloaded tool */ function downloadTool(url, dest, auth) { return __awaiter(this, void 0, void 0, function* () { dest = dest || path.join(_getTempDirectory(), v4_1.default()); yield io.mkdirP(path.dirname(dest)); core.debug(`Downloading ${url}`); core.debug(`Destination ${dest}`); const maxAttempts = 3; const minSeconds = _getGlobal('TEST_DOWNLOAD_TOOL_RETRY_MIN_SECONDS', 10); const maxSeconds = _getGlobal('TEST_DOWNLOAD_TOOL_RETRY_MAX_SECONDS', 20); const retryHelper = new retry_helper_1.RetryHelper(maxAttempts, minSeconds, maxSeconds); return yield retryHelper.execute(() => __awaiter(this, void 0, void 0, function* () { return yield downloadToolAttempt(url, dest || '', auth); }), (err) => { if (err instanceof HTTPError && err.httpStatusCode) { // Don't retry anything less than 500, except 408 Request Timeout and 429 Too Many Requests if (err.httpStatusCode < 500 && err.httpStatusCode !== 408 && err.httpStatusCode !== 429) { return false; } } // Otherwise retry return true; }); }); } exports.downloadTool = downloadTool; function downloadToolAttempt(url, dest, auth) { return __awaiter(this, void 0, void 0, function* () { if (fs.existsSync(dest)) { throw new Error(`Destination file path ${dest} already exists`); } // Get the response headers const http = new httpm.HttpClient(userAgent, [], { allowRetries: false }); let headers; if (auth) { core.debug('set auth'); headers = { authorization: auth }; } const response = yield http.get(url, headers); if (response.message.statusCode !== 200) { const err = new HTTPError(response.message.statusCode); core.debug(`Failed to download from "${url}". Code(${response.message.statusCode}) Message(${response.message.statusMessage})`); throw err; } // Download the response body const pipeline = util.promisify(stream.pipeline); const responseMessageFactory = _getGlobal('TEST_DOWNLOAD_TOOL_RESPONSE_MESSAGE_FACTORY', () => response.message); const readStream = responseMessageFactory(); let succeeded = false; try { yield pipeline(readStream, fs.createWriteStream(dest)); core.debug('download complete'); succeeded = true; return dest; } finally { // Error, delete dest before retry if (!succeeded) { core.debug('download failed'); try { yield io.rmRF(dest); } catch (err) { core.debug(`Failed to delete '${dest}'. ${err.message}`); } } } }); } /** * Extract a .7z file * * @param file path to the .7z file * @param dest destination directory. Optional. * @param _7zPath path to 7zr.exe. Optional, for long path support. Most .7z archives do not have this * problem. If your .7z archive contains very long paths, you can pass the path to 7zr.exe which will * gracefully handle long paths. By default 7zdec.exe is used because it is a very small program and is * bundled with the tool lib. However it does not support long paths. 7zr.exe is the reduced command line * interface, it is smaller than the full command line interface, and it does support long paths. At the * time of this writing, it is freely available from the LZMA SDK that is available on the 7zip website. * Be sure to check the current license agreement. If 7zr.exe is bundled with your action, then the path * to 7zr.exe can be pass to this function. * @returns path to the destination directory */ function extract7z(file, dest, _7zPath) { return __awaiter(this, void 0, void 0, function* () { assert_1.ok(IS_WINDOWS, 'extract7z() not supported on current OS'); assert_1.ok(file, 'parameter "file" is required'); dest = yield _createExtractFolder(dest); const originalCwd = process.cwd(); process.chdir(dest); if (_7zPath) { try { const logLevel = core.isDebug() ? '-bb1' : '-bb0'; const args = [ 'x', logLevel, '-bd', '-sccUTF-8', file ]; const options = { silent: true }; yield exec_1.exec(`"${_7zPath}"`, args, options); } finally { process.chdir(originalCwd); } } else { const escapedScript = path .join(__dirname, '..', 'scripts', 'Invoke-7zdec.ps1') .replace(/'/g, "''") .replace(/"|\n|\r/g, ''); // double-up single quotes, remove double quotes and newlines const escapedFile = file.replace(/'/g, "''").replace(/"|\n|\r/g, ''); const escapedTarget = dest.replace(/'/g, "''").replace(/"|\n|\r/g, ''); const command = `& '${escapedScript}' -Source '${escapedFile}' -Target '${escapedTarget}'`; const args = [ '-NoLogo', '-Sta', '-NoProfile', '-NonInteractive', '-ExecutionPolicy', 'Unrestricted', '-Command', command ]; const options = { silent: true }; try { const powershellPath = yield io.which('powershell', true); yield exec_1.exec(`"${powershellPath}"`, args, options); } finally { process.chdir(originalCwd); } } return dest; }); } exports.extract7z = extract7z; /** * Extract a compressed tar archive * * @param file path to the tar * @param dest destination directory. Optional. * @param flags flags for the tar command to use for extraction. Defaults to 'xz' (extracting gzipped tars). Optional. * @returns path to the destination directory */ function extractTar(file, dest, flags = 'xz') { return __awaiter(this, void 0, void 0, function* () { if (!file) { throw new Error("parameter 'file' is required"); } // Create dest dest = yield _createExtractFolder(dest); // Determine whether GNU tar core.debug('Checking tar --version'); let versionOutput = ''; yield exec_1.exec('tar --version', [], { ignoreReturnCode: true, silent: true, listeners: { stdout: (data) => (versionOutput += data.toString()), stderr: (data) => (versionOutput += data.toString()) } }); core.debug(versionOutput.trim()); const isGnuTar = versionOutput.toUpperCase().includes('GNU TAR'); // Initialize args let args; if (flags instanceof Array) { args = flags; } else { args = [flags]; } if (core.isDebug() && !flags.includes('v')) { args.push('-v'); } let destArg = dest; let fileArg = file; if (IS_WINDOWS && isGnuTar) { args.push('--force-local'); destArg = dest.replace(/\\/g, '/'); // Technically only the dest needs to have `/` but for aesthetic consistency // convert slashes in the file arg too. fileArg = file.replace(/\\/g, '/'); } if (isGnuTar) { // Suppress warnings when using GNU tar to extract archives created by BSD tar args.push('--warning=no-unknown-keyword'); } args.push('-C', destArg, '-f', fileArg); yield exec_1.exec(`tar`, args); return dest; }); } exports.extractTar = extractTar; /** * Extract a xar compatible archive * * @param file path to the archive * @param dest destination directory. Optional. * @param flags flags for the xar. Optional. * @returns path to the destination directory */ function extractXar(file, dest, flags = []) { return __awaiter(this, void 0, void 0, function* () { assert_1.ok(IS_MAC, 'extractXar() not supported on current OS'); assert_1.ok(file, 'parameter "file" is required'); dest = yield _createExtractFolder(dest); let args; if (flags instanceof Array) { args = flags; } else { args = [flags]; } args.push('-x', '-C', dest, '-f', file); if (core.isDebug()) { args.push('-v'); } const xarPath = yield io.which('xar', true); yield exec_1.exec(`"${xarPath}"`, _unique(args)); return dest; }); } exports.extractXar = extractXar; /** * Extract a zip * * @param file path to the zip * @param dest destination directory. Optional. * @returns path to the destination directory */ function extractZip(file, dest) { return __awaiter(this, void 0, void 0, function* () { if (!file) { throw new Error("parameter 'file' is required"); } dest = yield _createExtractFolder(dest); if (IS_WINDOWS) { yield extractZipWin(file, dest); } else { yield extractZipNix(file, dest); } return dest; }); } exports.extractZip = extractZip; function extractZipWin(file, dest) { return __awaiter(this, void 0, void 0, function* () { // build the powershell command const escapedFile = file.replace(/'/g, "''").replace(/"|\n|\r/g, ''); // double-up single quotes, remove double quotes and newlines const escapedDest = dest.replace(/'/g, "''").replace(/"|\n|\r/g, ''); const command = `$ErrorActionPreference = 'Stop' ; try { Add-Type -AssemblyName System.IO.Compression.FileSystem } catch { } ; [System.IO.Compression.ZipFile]::ExtractToDirectory('${escapedFile}', '${escapedDest}')`; // run powershell const powershellPath = yield io.which('powershell', true); const args = [ '-NoLogo', '-Sta', '-NoProfile', '-NonInteractive', '-ExecutionPolicy', 'Unrestricted', '-Command', command ]; yield exec_1.exec(`"${powershellPath}"`, args); }); } function extractZipNix(file, dest) { return __awaiter(this, void 0, void 0, function* () { const unzipPath = yield io.which('unzip', true); const args = [file]; if (!core.isDebug()) { args.unshift('-q'); } yield exec_1.exec(`"${unzipPath}"`, args, { cwd: dest }); }); } /** * Caches a directory and installs it into the tool cacheDir * * @param sourceDir the directory to cache into tools * @param tool tool name * @param version version of the tool. semver format * @param arch architecture of the tool. Optional. Defaults to machine architecture */ function cacheDir(sourceDir, tool, version, arch) { return __awaiter(this, void 0, void 0, function* () { version = semver.clean(version) || version; arch = arch || os.arch(); core.debug(`Caching tool ${tool} ${version} ${arch}`); core.debug(`source dir: ${sourceDir}`); if (!fs.statSync(sourceDir).isDirectory()) { throw new Error('sourceDir is not a directory'); } // Create the tool dir const destPath = yield _createToolPath(tool, version, arch); // copy each child item. do not move. move can fail on Windows // due to anti-virus software having an open handle on a file. for (const itemName of fs.readdirSync(sourceDir)) { const s = path.join(sourceDir, itemName); yield io.cp(s, destPath, { recursive: true }); } // write .complete _completeToolPath(tool, version, arch); return destPath; }); } exports.cacheDir = cacheDir; /** * Caches a downloaded file (GUID) and installs it * into the tool cache with a given targetName * * @param sourceFile the file to cache into tools. Typically a result of downloadTool which is a guid. * @param targetFile the name of the file name in the tools directory * @param tool tool name * @param version version of the tool. semver format * @param arch architecture of the tool. Optional. Defaults to machine architecture */ function cacheFile(sourceFile, targetFile, tool, version, arch) { return __awaiter(this, void 0, void 0, function* () { version = semver.clean(version) || version; arch = arch || os.arch(); core.debug(`Caching tool ${tool} ${version} ${arch}`); core.debug(`source file: ${sourceFile}`); if (!fs.statSync(sourceFile).isFile()) { throw new Error('sourceFile is not a file'); } // create the tool dir const destFolder = yield _createToolPath(tool, version, arch); // copy instead of move. move can fail on Windows due to // anti-virus software having an open handle on a file. const destPath = path.join(destFolder, targetFile); core.debug(`destination file ${destPath}`); yield io.cp(sourceFile, destPath); // write .complete _completeToolPath(tool, version, arch); return destFolder; }); } exports.cacheFile = cacheFile; /** * Finds the path to a tool version in the local installed tool cache * * @param toolName name of the tool * @param versionSpec version of the tool * @param arch optional arch. defaults to arch of computer */ function find(toolName, versionSpec, arch) { if (!toolName) { throw new Error('toolName parameter is required'); } if (!versionSpec) { throw new Error('versionSpec parameter is required'); } arch = arch || os.arch(); // attempt to resolve an explicit version if (!_isExplicitVersion(versionSpec)) { const localVersions = findAllVersions(toolName, arch); const match = _evaluateVersions(localVersions, versionSpec); versionSpec = match; } // check for the explicit version in the cache let toolPath = ''; if (versionSpec) { versionSpec = semver.clean(versionSpec) || ''; const cachePath = path.join(_getCacheDirectory(), toolName, versionSpec, arch); core.debug(`checking cache: ${cachePath}`); if (fs.existsSync(cachePath) && fs.existsSync(`${cachePath}.complete`)) { core.debug(`Found tool in cache ${toolName} ${versionSpec} ${arch}`); toolPath = cachePath; } else { core.debug('not found'); } } return toolPath; } exports.find = find; /** * Finds the paths to all versions of a tool that are installed in the local tool cache * * @param toolName name of the tool * @param arch optional arch. defaults to arch of computer */ function findAllVersions(toolName, arch) { const versions = []; arch = arch || os.arch(); const toolPath = path.join(_getCacheDirectory(), toolName); if (fs.existsSync(toolPath)) { const children = fs.readdirSync(toolPath); for (const child of children) { if (_isExplicitVersion(child)) { const fullPath = path.join(toolPath, child, arch || ''); if (fs.existsSync(fullPath) && fs.existsSync(`${fullPath}.complete`)) { versions.push(child); } } } } return versions; } exports.findAllVersions = findAllVersions; function getManifestFromRepo(owner, repo, auth, branch = 'master') { return __awaiter(this, void 0, void 0, function* () { let releases = []; const treeUrl = `https://api.github.com/repos/${owner}/${repo}/git/trees/${branch}`; const http = new httpm.HttpClient('tool-cache'); const headers = {}; if (auth) { core.debug('set auth'); headers.authorization = auth; } const response = yield http.getJson(treeUrl, headers); if (!response.result) { return releases; } let manifestUrl = ''; for (const item of response.result.tree) { if (item.path === 'versions-manifest.json') { manifestUrl = item.url; break; } } headers['accept'] = 'application/vnd.github.VERSION.raw'; let versionsRaw = yield (yield http.get(manifestUrl, headers)).readBody(); if (versionsRaw) { // shouldn't be needed but protects against invalid json saved with BOM versionsRaw = versionsRaw.replace(/^\uFEFF/, ''); try { releases = JSON.parse(versionsRaw); } catch (_a) { core.debug('Invalid json'); } } return releases; }); } exports.getManifestFromRepo = getManifestFromRepo; function findFromManifest(versionSpec, stable, manifest, archFilter = os.arch()) { return __awaiter(this, void 0, void 0, function* () { // wrap the internal impl const match = yield mm._findMatch(versionSpec, stable, manifest, archFilter); return match; }); } exports.findFromManifest = findFromManifest; function _createExtractFolder(dest) { return __awaiter(this, void 0, void 0, function* () { if (!dest) { // create a temp dir dest = path.join(_getTempDirectory(), v4_1.default()); } yield io.mkdirP(dest); return dest; }); } function _createToolPath(tool, version, arch) { return __awaiter(this, void 0, void 0, function* () { const folderPath = path.join(_getCacheDirectory(), tool, semver.clean(version) || version, arch || ''); core.debug(`destination ${folderPath}`); const markerPath = `${folderPath}.complete`; yield io.rmRF(folderPath); yield io.rmRF(markerPath); yield io.mkdirP(folderPath); return folderPath; }); } function _completeToolPath(tool, version, arch) { const folderPath = path.join(_getCacheDirectory(), tool, semver.clean(version) || version, arch || ''); const markerPath = `${folderPath}.complete`; fs.writeFileSync(markerPath, ''); core.debug('finished caching tool'); } function _isExplicitVersion(versionSpec) { const c = semver.clean(versionSpec) || ''; core.debug(`isExplicit: ${c}`); const valid = semver.valid(c) != null; core.debug(`explicit? ${valid}`); return valid; } function _evaluateVersions(versions, versionSpec) { let version = ''; core.debug(`evaluating ${versions.length} versions`); versions = versions.sort((a, b) => { if (semver.gt(a, b)) { return 1; } return -1; }); for (let i = versions.length - 1; i >= 0; i--) { const potential = versions[i]; const satisfied = semver.satisfies(potential, versionSpec); if (satisfied) { version = potential; break; } } if (version) { core.debug(`matched: ${version}`); } else { core.debug('match not found'); } return version; } /** * Gets RUNNER_TOOL_CACHE */ function _getCacheDirectory() { const cacheDirectory = process.env['RUNNER_TOOL_CACHE'] || ''; assert_1.ok(cacheDirectory, 'Expected RUNNER_TOOL_CACHE to be defined'); return cacheDirectory; } /** * Gets RUNNER_TEMP */ function _getTempDirectory() { const tempDirectory = process.env['RUNNER_TEMP'] || ''; assert_1.ok(tempDirectory, 'Expected RUNNER_TEMP to be defined'); return tempDirectory; } /** * Gets a global variable */ function _getGlobal(key, defaultValue) { /* eslint-disable @typescript-eslint/no-explicit-any */ const value = global[key]; /* eslint-enable @typescript-eslint/no-explicit-any */ return value !== undefined ? value : defaultValue; } /** * Returns an array of unique values. * @param values Values to make unique. */ function _unique(values) { return Array.from(new Set(values)); } //# sourceMappingURL=tool-cache.js.map /***/ }), /***/ 70562: /***/ ((module, exports) => { exports = module.exports = SemVer var debug /* istanbul ignore next */ if (typeof process === 'object' && process.env && process.env.NODE_DEBUG && /\bsemver\b/i.test(process.env.NODE_DEBUG)) { debug = function () { var args = Array.prototype.slice.call(arguments, 0) args.unshift('SEMVER') console.log.apply(console, args) } } else { debug = function () {} } // Note: this is the semver.org version of the spec that it implements // Not necessarily the package version of this code. exports.SEMVER_SPEC_VERSION = '2.0.0' var MAX_LENGTH = 256 var MAX_SAFE_INTEGER = Number.MAX_SAFE_INTEGER || /* istanbul ignore next */ 9007199254740991 // Max safe segment length for coercion. var MAX_SAFE_COMPONENT_LENGTH = 16 var MAX_SAFE_BUILD_LENGTH = MAX_LENGTH - 6 // The actual regexps go on exports.re var re = exports.re = [] var safeRe = exports.safeRe = [] var src = exports.src = [] var t = exports.tokens = {} var R = 0 function tok (n) { t[n] = R++ } var LETTERDASHNUMBER = '[a-zA-Z0-9-]' // Replace some greedy regex tokens to prevent regex dos issues. These regex are // used internally via the safeRe object since all inputs in this library get // normalized first to trim and collapse all extra whitespace. The original // regexes are exported for userland consumption and lower level usage. A // future breaking change could export the safer regex only with a note that // all input should have extra whitespace removed. var safeRegexReplacements = [ ['\\s', 1], ['\\d', MAX_LENGTH], [LETTERDASHNUMBER, MAX_SAFE_BUILD_LENGTH], ] function makeSafeRe (value) { for (var i = 0; i < safeRegexReplacements.length; i++) { var token = safeRegexReplacements[i][0] var max = safeRegexReplacements[i][1] value = value .split(token + '*').join(token + '{0,' + max + '}') .split(token + '+').join(token + '{1,' + max + '}') } return value } // The following Regular Expressions can be used for tokenizing, // validating, and parsing SemVer version strings. // ## Numeric Identifier // A single `0`, or a non-zero digit followed by zero or more digits. tok('NUMERICIDENTIFIER') src[t.NUMERICIDENTIFIER] = '0|[1-9]\\d*' tok('NUMERICIDENTIFIERLOOSE') src[t.NUMERICIDENTIFIERLOOSE] = '\\d+' // ## Non-numeric Identifier // Zero or more digits, followed by a letter or hyphen, and then zero or // more letters, digits, or hyphens. tok('NONNUMERICIDENTIFIER') src[t.NONNUMERICIDENTIFIER] = '\\d*[a-zA-Z-]' + LETTERDASHNUMBER + '*' // ## Main Version // Three dot-separated numeric identifiers. tok('MAINVERSION') src[t.MAINVERSION] = '(' + src[t.NUMERICIDENTIFIER] + ')\\.' + '(' + src[t.NUMERICIDENTIFIER] + ')\\.' + '(' + src[t.NUMERICIDENTIFIER] + ')' tok('MAINVERSIONLOOSE') src[t.MAINVERSIONLOOSE] = '(' + src[t.NUMERICIDENTIFIERLOOSE] + ')\\.' + '(' + src[t.NUMERICIDENTIFIERLOOSE] + ')\\.' + '(' + src[t.NUMERICIDENTIFIERLOOSE] + ')' // ## Pre-release Version Identifier // A numeric identifier, or a non-numeric identifier. tok('PRERELEASEIDENTIFIER') src[t.PRERELEASEIDENTIFIER] = '(?:' + src[t.NUMERICIDENTIFIER] + '|' + src[t.NONNUMERICIDENTIFIER] + ')' tok('PRERELEASEIDENTIFIERLOOSE') src[t.PRERELEASEIDENTIFIERLOOSE] = '(?:' + src[t.NUMERICIDENTIFIERLOOSE] + '|' + src[t.NONNUMERICIDENTIFIER] + ')' // ## Pre-release Version // Hyphen, followed by one or more dot-separated pre-release version // identifiers. tok('PRERELEASE') src[t.PRERELEASE] = '(?:-(' + src[t.PRERELEASEIDENTIFIER] + '(?:\\.' + src[t.PRERELEASEIDENTIFIER] + ')*))' tok('PRERELEASELOOSE') src[t.PRERELEASELOOSE] = '(?:-?(' + src[t.PRERELEASEIDENTIFIERLOOSE] + '(?:\\.' + src[t.PRERELEASEIDENTIFIERLOOSE] + ')*))' // ## Build Metadata Identifier // Any combination of digits, letters, or hyphens. tok('BUILDIDENTIFIER') src[t.BUILDIDENTIFIER] = LETTERDASHNUMBER + '+' // ## Build Metadata // Plus sign, followed by one or more period-separated build metadata // identifiers. tok('BUILD') src[t.BUILD] = '(?:\\+(' + src[t.BUILDIDENTIFIER] + '(?:\\.' + src[t.BUILDIDENTIFIER] + ')*))' // ## Full Version String // A main version, followed optionally by a pre-release version and // build metadata. // Note that the only major, minor, patch, and pre-release sections of // the version string are capturing groups. The build metadata is not a // capturing group, because it should not ever be used in version // comparison. tok('FULL') tok('FULLPLAIN') src[t.FULLPLAIN] = 'v?' + src[t.MAINVERSION] + src[t.PRERELEASE] + '?' + src[t.BUILD] + '?' src[t.FULL] = '^' + src[t.FULLPLAIN] + '$' // like full, but allows v1.2.3 and =1.2.3, which people do sometimes. // also, 1.0.0alpha1 (prerelease without the hyphen) which is pretty // common in the npm registry. tok('LOOSEPLAIN') src[t.LOOSEPLAIN] = '[v=\\s]*' + src[t.MAINVERSIONLOOSE] + src[t.PRERELEASELOOSE] + '?' + src[t.BUILD] + '?' tok('LOOSE') src[t.LOOSE] = '^' + src[t.LOOSEPLAIN] + '$' tok('GTLT') src[t.GTLT] = '((?:<|>)?=?)' // Something like "2.*" or "1.2.x". // Note that "x.x" is a valid xRange identifer, meaning "any version" // Only the first item is strictly required. tok('XRANGEIDENTIFIERLOOSE') src[t.XRANGEIDENTIFIERLOOSE] = src[t.NUMERICIDENTIFIERLOOSE] + '|x|X|\\*' tok('XRANGEIDENTIFIER') src[t.XRANGEIDENTIFIER] = src[t.NUMERICIDENTIFIER] + '|x|X|\\*' tok('XRANGEPLAIN') src[t.XRANGEPLAIN] = '[v=\\s]*(' + src[t.XRANGEIDENTIFIER] + ')' + '(?:\\.(' + src[t.XRANGEIDENTIFIER] + ')' + '(?:\\.(' + src[t.XRANGEIDENTIFIER] + ')' + '(?:' + src[t.PRERELEASE] + ')?' + src[t.BUILD] + '?' + ')?)?' tok('XRANGEPLAINLOOSE') src[t.XRANGEPLAINLOOSE] = '[v=\\s]*(' + src[t.XRANGEIDENTIFIERLOOSE] + ')' + '(?:\\.(' + src[t.XRANGEIDENTIFIERLOOSE] + ')' + '(?:\\.(' + src[t.XRANGEIDENTIFIERLOOSE] + ')' + '(?:' + src[t.PRERELEASELOOSE] + ')?' + src[t.BUILD] + '?' + ')?)?' tok('XRANGE') src[t.XRANGE] = '^' + src[t.GTLT] + '\\s*' + src[t.XRANGEPLAIN] + '$' tok('XRANGELOOSE') src[t.XRANGELOOSE] = '^' + src[t.GTLT] + '\\s*' + src[t.XRANGEPLAINLOOSE] + '$' // Coercion. // Extract anything that could conceivably be a part of a valid semver tok('COERCE') src[t.COERCE] = '(^|[^\\d])' + '(\\d{1,' + MAX_SAFE_COMPONENT_LENGTH + '})' + '(?:\\.(\\d{1,' + MAX_SAFE_COMPONENT_LENGTH + '}))?' + '(?:\\.(\\d{1,' + MAX_SAFE_COMPONENT_LENGTH + '}))?' + '(?:$|[^\\d])' tok('COERCERTL') re[t.COERCERTL] = new RegExp(src[t.COERCE], 'g') safeRe[t.COERCERTL] = new RegExp(makeSafeRe(src[t.COERCE]), 'g') // Tilde ranges. // Meaning is "reasonably at or greater than" tok('LONETILDE') src[t.LONETILDE] = '(?:~>?)' tok('TILDETRIM') src[t.TILDETRIM] = '(\\s*)' + src[t.LONETILDE] + '\\s+' re[t.TILDETRIM] = new RegExp(src[t.TILDETRIM], 'g') safeRe[t.TILDETRIM] = new RegExp(makeSafeRe(src[t.TILDETRIM]), 'g') var tildeTrimReplace = '$1~' tok('TILDE') src[t.TILDE] = '^' + src[t.LONETILDE] + src[t.XRANGEPLAIN] + '$' tok('TILDELOOSE') src[t.TILDELOOSE] = '^' + src[t.LONETILDE] + src[t.XRANGEPLAINLOOSE] + '$' // Caret ranges. // Meaning is "at least and backwards compatible with" tok('LONECARET') src[t.LONECARET] = '(?:\\^)' tok('CARETTRIM') src[t.CARETTRIM] = '(\\s*)' + src[t.LONECARET] + '\\s+' re[t.CARETTRIM] = new RegExp(src[t.CARETTRIM], 'g') safeRe[t.CARETTRIM] = new RegExp(makeSafeRe(src[t.CARETTRIM]), 'g') var caretTrimReplace = '$1^' tok('CARET') src[t.CARET] = '^' + src[t.LONECARET] + src[t.XRANGEPLAIN] + '$' tok('CARETLOOSE') src[t.CARETLOOSE] = '^' + src[t.LONECARET] + src[t.XRANGEPLAINLOOSE] + '$' // A simple gt/lt/eq thing, or just "" to indicate "any version" tok('COMPARATORLOOSE') src[t.COMPARATORLOOSE] = '^' + src[t.GTLT] + '\\s*(' + src[t.LOOSEPLAIN] + ')$|^$' tok('COMPARATOR') src[t.COMPARATOR] = '^' + src[t.GTLT] + '\\s*(' + src[t.FULLPLAIN] + ')$|^$' // An expression to strip any whitespace between the gtlt and the thing // it modifies, so that `> 1.2.3` ==> `>1.2.3` tok('COMPARATORTRIM') src[t.COMPARATORTRIM] = '(\\s*)' + src[t.GTLT] + '\\s*(' + src[t.LOOSEPLAIN] + '|' + src[t.XRANGEPLAIN] + ')' // this one has to use the /g flag re[t.COMPARATORTRIM] = new RegExp(src[t.COMPARATORTRIM], 'g') safeRe[t.COMPARATORTRIM] = new RegExp(makeSafeRe(src[t.COMPARATORTRIM]), 'g') var comparatorTrimReplace = '$1$2$3' // Something like `1.2.3 - 1.2.4` // Note that these all use the loose form, because they'll be // checked against either the strict or loose comparator form // later. tok('HYPHENRANGE') src[t.HYPHENRANGE] = '^\\s*(' + src[t.XRANGEPLAIN] + ')' + '\\s+-\\s+' + '(' + src[t.XRANGEPLAIN] + ')' + '\\s*$' tok('HYPHENRANGELOOSE') src[t.HYPHENRANGELOOSE] = '^\\s*(' + src[t.XRANGEPLAINLOOSE] + ')' + '\\s+-\\s+' + '(' + src[t.XRANGEPLAINLOOSE] + ')' + '\\s*$' // Star ranges basically just allow anything at all. tok('STAR') src[t.STAR] = '(<|>)?=?\\s*\\*' // Compile to actual regexp objects. // All are flag-free, unless they were created above with a flag. for (var i = 0; i < R; i++) { debug(i, src[i]) if (!re[i]) { re[i] = new RegExp(src[i]) // Replace all greedy whitespace to prevent regex dos issues. These regex are // used internally via the safeRe object since all inputs in this library get // normalized first to trim and collapse all extra whitespace. The original // regexes are exported for userland consumption and lower level usage. A // future breaking change could export the safer regex only with a note that // all input should have extra whitespace removed. safeRe[i] = new RegExp(makeSafeRe(src[i])) } } exports.parse = parse function parse (version, options) { if (!options || typeof options !== 'object') { options = { loose: !!options, includePrerelease: false } } if (version instanceof SemVer) { return version } if (typeof version !== 'string') { return null } if (version.length > MAX_LENGTH) { return null } var r = options.loose ? safeRe[t.LOOSE] : safeRe[t.FULL] if (!r.test(version)) { return null } try { return new SemVer(version, options) } catch (er) { return null } } exports.valid = valid function valid (version, options) { var v = parse(version, options) return v ? v.version : null } exports.clean = clean function clean (version, options) { var s = parse(version.trim().replace(/^[=v]+/, ''), options) return s ? s.version : null } exports.SemVer = SemVer function SemVer (version, options) { if (!options || typeof options !== 'object') { options = { loose: !!options, includePrerelease: false } } if (version instanceof SemVer) { if (version.loose === options.loose) { return version } else { version = version.version } } else if (typeof version !== 'string') { throw new TypeError('Invalid Version: ' + version) } if (version.length > MAX_LENGTH) { throw new TypeError('version is longer than ' + MAX_LENGTH + ' characters') } if (!(this instanceof SemVer)) { return new SemVer(version, options) } debug('SemVer', version, options) this.options = options this.loose = !!options.loose var m = version.trim().match(options.loose ? safeRe[t.LOOSE] : safeRe[t.FULL]) if (!m) { throw new TypeError('Invalid Version: ' + version) } this.raw = version // these are actually numbers this.major = +m[1] this.minor = +m[2] this.patch = +m[3] if (this.major > MAX_SAFE_INTEGER || this.major < 0) { throw new TypeError('Invalid major version') } if (this.minor > MAX_SAFE_INTEGER || this.minor < 0) { throw new TypeError('Invalid minor version') } if (this.patch > MAX_SAFE_INTEGER || this.patch < 0) { throw new TypeError('Invalid patch version') } // numberify any prerelease numeric ids if (!m[4]) { this.prerelease = [] } else { this.prerelease = m[4].split('.').map(function (id) { if (/^[0-9]+$/.test(id)) { var num = +id if (num >= 0 && num < MAX_SAFE_INTEGER) { return num } } return id }) } this.build = m[5] ? m[5].split('.') : [] this.format() } SemVer.prototype.format = function () { this.version = this.major + '.' + this.minor + '.' + this.patch if (this.prerelease.length) { this.version += '-' + this.prerelease.join('.') } return this.version } SemVer.prototype.toString = function () { return this.version } SemVer.prototype.compare = function (other) { debug('SemVer.compare', this.version, this.options, other) if (!(other instanceof SemVer)) { other = new SemVer(other, this.options) } return this.compareMain(other) || this.comparePre(other) } SemVer.prototype.compareMain = function (other) { if (!(other instanceof SemVer)) { other = new SemVer(other, this.options) } return compareIdentifiers(this.major, other.major) || compareIdentifiers(this.minor, other.minor) || compareIdentifiers(this.patch, other.patch) } SemVer.prototype.comparePre = function (other) { if (!(other instanceof SemVer)) { other = new SemVer(other, this.options) } // NOT having a prerelease is > having one if (this.prerelease.length && !other.prerelease.length) { return -1 } else if (!this.prerelease.length && other.prerelease.length) { return 1 } else if (!this.prerelease.length && !other.prerelease.length) { return 0 } var i = 0 do { var a = this.prerelease[i] var b = other.prerelease[i] debug('prerelease compare', i, a, b) if (a === undefined && b === undefined) { return 0 } else if (b === undefined) { return 1 } else if (a === undefined) { return -1 } else if (a === b) { continue } else { return compareIdentifiers(a, b) } } while (++i) } SemVer.prototype.compareBuild = function (other) { if (!(other instanceof SemVer)) { other = new SemVer(other, this.options) } var i = 0 do { var a = this.build[i] var b = other.build[i] debug('prerelease compare', i, a, b) if (a === undefined && b === undefined) { return 0 } else if (b === undefined) { return 1 } else if (a === undefined) { return -1 } else if (a === b) { continue } else { return compareIdentifiers(a, b) } } while (++i) } // preminor will bump the version up to the next minor release, and immediately // down to pre-release. premajor and prepatch work the same way. SemVer.prototype.inc = function (release, identifier) { switch (release) { case 'premajor': this.prerelease.length = 0 this.patch = 0 this.minor = 0 this.major++ this.inc('pre', identifier) break case 'preminor': this.prerelease.length = 0 this.patch = 0 this.minor++ this.inc('pre', identifier) break case 'prepatch': // If this is already a prerelease, it will bump to the next version // drop any prereleases that might already exist, since they are not // relevant at this point. this.prerelease.length = 0 this.inc('patch', identifier) this.inc('pre', identifier) break // If the input is a non-prerelease version, this acts the same as // prepatch. case 'prerelease': if (this.prerelease.length === 0) { this.inc('patch', identifier) } this.inc('pre', identifier) break case 'major': // If this is a pre-major version, bump up to the same major version. // Otherwise increment major. // 1.0.0-5 bumps to 1.0.0 // 1.1.0 bumps to 2.0.0 if (this.minor !== 0 || this.patch !== 0 || this.prerelease.length === 0) { this.major++ } this.minor = 0 this.patch = 0 this.prerelease = [] break case 'minor': // If this is a pre-minor version, bump up to the same minor version. // Otherwise increment minor. // 1.2.0-5 bumps to 1.2.0 // 1.2.1 bumps to 1.3.0 if (this.patch !== 0 || this.prerelease.length === 0) { this.minor++ } this.patch = 0 this.prerelease = [] break case 'patch': // If this is not a pre-release version, it will increment the patch. // If it is a pre-release it will bump up to the same patch version. // 1.2.0-5 patches to 1.2.0 // 1.2.0 patches to 1.2.1 if (this.prerelease.length === 0) { this.patch++ } this.prerelease = [] break // This probably shouldn't be used publicly. // 1.0.0 "pre" would become 1.0.0-0 which is the wrong direction. case 'pre': if (this.prerelease.length === 0) { this.prerelease = [0] } else { var i = this.prerelease.length while (--i >= 0) { if (typeof this.prerelease[i] === 'number') { this.prerelease[i]++ i = -2 } } if (i === -1) { // didn't increment anything this.prerelease.push(0) } } if (identifier) { // 1.2.0-beta.1 bumps to 1.2.0-beta.2, // 1.2.0-beta.fooblz or 1.2.0-beta bumps to 1.2.0-beta.0 if (this.prerelease[0] === identifier) { if (isNaN(this.prerelease[1])) { this.prerelease = [identifier, 0] } } else { this.prerelease = [identifier, 0] } } break default: throw new Error('invalid increment argument: ' + release) } this.format() this.raw = this.version return this } exports.inc = inc function inc (version, release, loose, identifier) { if (typeof (loose) === 'string') { identifier = loose loose = undefined } try { return new SemVer(version, loose).inc(release, identifier).version } catch (er) { return null } } exports.diff = diff function diff (version1, version2) { if (eq(version1, version2)) { return null } else { var v1 = parse(version1) var v2 = parse(version2) var prefix = '' if (v1.prerelease.length || v2.prerelease.length) { prefix = 'pre' var defaultResult = 'prerelease' } for (var key in v1) { if (key === 'major' || key === 'minor' || key === 'patch') { if (v1[key] !== v2[key]) { return prefix + key } } } return defaultResult // may be undefined } } exports.compareIdentifiers = compareIdentifiers var numeric = /^[0-9]+$/ function compareIdentifiers (a, b) { var anum = numeric.test(a) var bnum = numeric.test(b) if (anum && bnum) { a = +a b = +b } return a === b ? 0 : (anum && !bnum) ? -1 : (bnum && !anum) ? 1 : a < b ? -1 : 1 } exports.rcompareIdentifiers = rcompareIdentifiers function rcompareIdentifiers (a, b) { return compareIdentifiers(b, a) } exports.major = major function major (a, loose) { return new SemVer(a, loose).major } exports.minor = minor function minor (a, loose) { return new SemVer(a, loose).minor } exports.patch = patch function patch (a, loose) { return new SemVer(a, loose).patch } exports.compare = compare function compare (a, b, loose) { return new SemVer(a, loose).compare(new SemVer(b, loose)) } exports.compareLoose = compareLoose function compareLoose (a, b) { return compare(a, b, true) } exports.compareBuild = compareBuild function compareBuild (a, b, loose) { var versionA = new SemVer(a, loose) var versionB = new SemVer(b, loose) return versionA.compare(versionB) || versionA.compareBuild(versionB) } exports.rcompare = rcompare function rcompare (a, b, loose) { return compare(b, a, loose) } exports.sort = sort function sort (list, loose) { return list.sort(function (a, b) { return exports.compareBuild(a, b, loose) }) } exports.rsort = rsort function rsort (list, loose) { return list.sort(function (a, b) { return exports.compareBuild(b, a, loose) }) } exports.gt = gt function gt (a, b, loose) { return compare(a, b, loose) > 0 } exports.lt = lt function lt (a, b, loose) { return compare(a, b, loose) < 0 } exports.eq = eq function eq (a, b, loose) { return compare(a, b, loose) === 0 } exports.neq = neq function neq (a, b, loose) { return compare(a, b, loose) !== 0 } exports.gte = gte function gte (a, b, loose) { return compare(a, b, loose) >= 0 } exports.lte = lte function lte (a, b, loose) { return compare(a, b, loose) <= 0 } exports.cmp = cmp function cmp (a, op, b, loose) { switch (op) { case '===': if (typeof a === 'object') a = a.version if (typeof b === 'object') b = b.version return a === b case '!==': if (typeof a === 'object') a = a.version if (typeof b === 'object') b = b.version return a !== b case '': case '=': case '==': return eq(a, b, loose) case '!=': return neq(a, b, loose) case '>': return gt(a, b, loose) case '>=': return gte(a, b, loose) case '<': return lt(a, b, loose) case '<=': return lte(a, b, loose) default: throw new TypeError('Invalid operator: ' + op) } } exports.Comparator = Comparator function Comparator (comp, options) { if (!options || typeof options !== 'object') { options = { loose: !!options, includePrerelease: false } } if (comp instanceof Comparator) { if (comp.loose === !!options.loose) { return comp } else { comp = comp.value } } if (!(this instanceof Comparator)) { return new Comparator(comp, options) } comp = comp.trim().split(/\s+/).join(' ') debug('comparator', comp, options) this.options = options this.loose = !!options.loose this.parse(comp) if (this.semver === ANY) { this.value = '' } else { this.value = this.operator + this.semver.version } debug('comp', this) } var ANY = {} Comparator.prototype.parse = function (comp) { var r = this.options.loose ? safeRe[t.COMPARATORLOOSE] : safeRe[t.COMPARATOR] var m = comp.match(r) if (!m) { throw new TypeError('Invalid comparator: ' + comp) } this.operator = m[1] !== undefined ? m[1] : '' if (this.operator === '=') { this.operator = '' } // if it literally is just '>' or '' then allow anything. if (!m[2]) { this.semver = ANY } else { this.semver = new SemVer(m[2], this.options.loose) } } Comparator.prototype.toString = function () { return this.value } Comparator.prototype.test = function (version) { debug('Comparator.test', version, this.options.loose) if (this.semver === ANY || version === ANY) { return true } if (typeof version === 'string') { try { version = new SemVer(version, this.options) } catch (er) { return false } } return cmp(version, this.operator, this.semver, this.options) } Comparator.prototype.intersects = function (comp, options) { if (!(comp instanceof Comparator)) { throw new TypeError('a Comparator is required') } if (!options || typeof options !== 'object') { options = { loose: !!options, includePrerelease: false } } var rangeTmp if (this.operator === '') { if (this.value === '') { return true } rangeTmp = new Range(comp.value, options) return satisfies(this.value, rangeTmp, options) } else if (comp.operator === '') { if (comp.value === '') { return true } rangeTmp = new Range(this.value, options) return satisfies(comp.semver, rangeTmp, options) } var sameDirectionIncreasing = (this.operator === '>=' || this.operator === '>') && (comp.operator === '>=' || comp.operator === '>') var sameDirectionDecreasing = (this.operator === '<=' || this.operator === '<') && (comp.operator === '<=' || comp.operator === '<') var sameSemVer = this.semver.version === comp.semver.version var differentDirectionsInclusive = (this.operator === '>=' || this.operator === '<=') && (comp.operator === '>=' || comp.operator === '<=') var oppositeDirectionsLessThan = cmp(this.semver, '<', comp.semver, options) && ((this.operator === '>=' || this.operator === '>') && (comp.operator === '<=' || comp.operator === '<')) var oppositeDirectionsGreaterThan = cmp(this.semver, '>', comp.semver, options) && ((this.operator === '<=' || this.operator === '<') && (comp.operator === '>=' || comp.operator === '>')) return sameDirectionIncreasing || sameDirectionDecreasing || (sameSemVer && differentDirectionsInclusive) || oppositeDirectionsLessThan || oppositeDirectionsGreaterThan } exports.Range = Range function Range (range, options) { if (!options || typeof options !== 'object') { options = { loose: !!options, includePrerelease: false } } if (range instanceof Range) { if (range.loose === !!options.loose && range.includePrerelease === !!options.includePrerelease) { return range } else { return new Range(range.raw, options) } } if (range instanceof Comparator) { return new Range(range.value, options) } if (!(this instanceof Range)) { return new Range(range, options) } this.options = options this.loose = !!options.loose this.includePrerelease = !!options.includePrerelease // First reduce all whitespace as much as possible so we do not have to rely // on potentially slow regexes like \s*. This is then stored and used for // future error messages as well. this.raw = range .trim() .split(/\s+/) .join(' ') // First, split based on boolean or || this.set = this.raw.split('||').map(function (range) { return this.parseRange(range.trim()) }, this).filter(function (c) { // throw out any that are not relevant for whatever reason return c.length }) if (!this.set.length) { throw new TypeError('Invalid SemVer Range: ' + this.raw) } this.format() } Range.prototype.format = function () { this.range = this.set.map(function (comps) { return comps.join(' ').trim() }).join('||').trim() return this.range } Range.prototype.toString = function () { return this.range } Range.prototype.parseRange = function (range) { var loose = this.options.loose // `1.2.3 - 1.2.4` => `>=1.2.3 <=1.2.4` var hr = loose ? safeRe[t.HYPHENRANGELOOSE] : safeRe[t.HYPHENRANGE] range = range.replace(hr, hyphenReplace) debug('hyphen replace', range) // `> 1.2.3 < 1.2.5` => `>1.2.3 <1.2.5` range = range.replace(safeRe[t.COMPARATORTRIM], comparatorTrimReplace) debug('comparator trim', range, safeRe[t.COMPARATORTRIM]) // `~ 1.2.3` => `~1.2.3` range = range.replace(safeRe[t.TILDETRIM], tildeTrimReplace) // `^ 1.2.3` => `^1.2.3` range = range.replace(safeRe[t.CARETTRIM], caretTrimReplace) // normalize spaces range = range.split(/\s+/).join(' ') // At this point, the range is completely trimmed and // ready to be split into comparators. var compRe = loose ? safeRe[t.COMPARATORLOOSE] : safeRe[t.COMPARATOR] var set = range.split(' ').map(function (comp) { return parseComparator(comp, this.options) }, this).join(' ').split(/\s+/) if (this.options.loose) { // in loose mode, throw out any that are not valid comparators set = set.filter(function (comp) { return !!comp.match(compRe) }) } set = set.map(function (comp) { return new Comparator(comp, this.options) }, this) return set } Range.prototype.intersects = function (range, options) { if (!(range instanceof Range)) { throw new TypeError('a Range is required') } return this.set.some(function (thisComparators) { return ( isSatisfiable(thisComparators, options) && range.set.some(function (rangeComparators) { return ( isSatisfiable(rangeComparators, options) && thisComparators.every(function (thisComparator) { return rangeComparators.every(function (rangeComparator) { return thisComparator.intersects(rangeComparator, options) }) }) ) }) ) }) } // take a set of comparators and determine whether there // exists a version which can satisfy it function isSatisfiable (comparators, options) { var result = true var remainingComparators = comparators.slice() var testComparator = remainingComparators.pop() while (result && remainingComparators.length) { result = remainingComparators.every(function (otherComparator) { return testComparator.intersects(otherComparator, options) }) testComparator = remainingComparators.pop() } return result } // Mostly just for testing and legacy API reasons exports.toComparators = toComparators function toComparators (range, options) { return new Range(range, options).set.map(function (comp) { return comp.map(function (c) { return c.value }).join(' ').trim().split(' ') }) } // comprised of xranges, tildes, stars, and gtlt's at this point. // already replaced the hyphen ranges // turn into a set of JUST comparators. function parseComparator (comp, options) { debug('comp', comp, options) comp = replaceCarets(comp, options) debug('caret', comp) comp = replaceTildes(comp, options) debug('tildes', comp) comp = replaceXRanges(comp, options) debug('xrange', comp) comp = replaceStars(comp, options) debug('stars', comp) return comp } function isX (id) { return !id || id.toLowerCase() === 'x' || id === '*' } // ~, ~> --> * (any, kinda silly) // ~2, ~2.x, ~2.x.x, ~>2, ~>2.x ~>2.x.x --> >=2.0.0 <3.0.0 // ~2.0, ~2.0.x, ~>2.0, ~>2.0.x --> >=2.0.0 <2.1.0 // ~1.2, ~1.2.x, ~>1.2, ~>1.2.x --> >=1.2.0 <1.3.0 // ~1.2.3, ~>1.2.3 --> >=1.2.3 <1.3.0 // ~1.2.0, ~>1.2.0 --> >=1.2.0 <1.3.0 function replaceTildes (comp, options) { return comp.trim().split(/\s+/).map(function (comp) { return replaceTilde(comp, options) }).join(' ') } function replaceTilde (comp, options) { var r = options.loose ? safeRe[t.TILDELOOSE] : safeRe[t.TILDE] return comp.replace(r, function (_, M, m, p, pr) { debug('tilde', comp, _, M, m, p, pr) var ret if (isX(M)) { ret = '' } else if (isX(m)) { ret = '>=' + M + '.0.0 <' + (+M + 1) + '.0.0' } else if (isX(p)) { // ~1.2 == >=1.2.0 <1.3.0 ret = '>=' + M + '.' + m + '.0 <' + M + '.' + (+m + 1) + '.0' } else if (pr) { debug('replaceTilde pr', pr) ret = '>=' + M + '.' + m + '.' + p + '-' + pr + ' <' + M + '.' + (+m + 1) + '.0' } else { // ~1.2.3 == >=1.2.3 <1.3.0 ret = '>=' + M + '.' + m + '.' + p + ' <' + M + '.' + (+m + 1) + '.0' } debug('tilde return', ret) return ret }) } // ^ --> * (any, kinda silly) // ^2, ^2.x, ^2.x.x --> >=2.0.0 <3.0.0 // ^2.0, ^2.0.x --> >=2.0.0 <3.0.0 // ^1.2, ^1.2.x --> >=1.2.0 <2.0.0 // ^1.2.3 --> >=1.2.3 <2.0.0 // ^1.2.0 --> >=1.2.0 <2.0.0 function replaceCarets (comp, options) { return comp.trim().split(/\s+/).map(function (comp) { return replaceCaret(comp, options) }).join(' ') } function replaceCaret (comp, options) { debug('caret', comp, options) var r = options.loose ? safeRe[t.CARETLOOSE] : safeRe[t.CARET] return comp.replace(r, function (_, M, m, p, pr) { debug('caret', comp, _, M, m, p, pr) var ret if (isX(M)) { ret = '' } else if (isX(m)) { ret = '>=' + M + '.0.0 <' + (+M + 1) + '.0.0' } else if (isX(p)) { if (M === '0') { ret = '>=' + M + '.' + m + '.0 <' + M + '.' + (+m + 1) + '.0' } else { ret = '>=' + M + '.' + m + '.0 <' + (+M + 1) + '.0.0' } } else if (pr) { debug('replaceCaret pr', pr) if (M === '0') { if (m === '0') { ret = '>=' + M + '.' + m + '.' + p + '-' + pr + ' <' + M + '.' + m + '.' + (+p + 1) } else { ret = '>=' + M + '.' + m + '.' + p + '-' + pr + ' <' + M + '.' + (+m + 1) + '.0' } } else { ret = '>=' + M + '.' + m + '.' + p + '-' + pr + ' <' + (+M + 1) + '.0.0' } } else { debug('no pr') if (M === '0') { if (m === '0') { ret = '>=' + M + '.' + m + '.' + p + ' <' + M + '.' + m + '.' + (+p + 1) } else { ret = '>=' + M + '.' + m + '.' + p + ' <' + M + '.' + (+m + 1) + '.0' } } else { ret = '>=' + M + '.' + m + '.' + p + ' <' + (+M + 1) + '.0.0' } } debug('caret return', ret) return ret }) } function replaceXRanges (comp, options) { debug('replaceXRanges', comp, options) return comp.split(/\s+/).map(function (comp) { return replaceXRange(comp, options) }).join(' ') } function replaceXRange (comp, options) { comp = comp.trim() var r = options.loose ? safeRe[t.XRANGELOOSE] : safeRe[t.XRANGE] return comp.replace(r, function (ret, gtlt, M, m, p, pr) { debug('xRange', comp, ret, gtlt, M, m, p, pr) var xM = isX(M) var xm = xM || isX(m) var xp = xm || isX(p) var anyX = xp if (gtlt === '=' && anyX) { gtlt = '' } // if we're including prereleases in the match, then we need // to fix this to -0, the lowest possible prerelease value pr = options.includePrerelease ? '-0' : '' if (xM) { if (gtlt === '>' || gtlt === '<') { // nothing is allowed ret = '<0.0.0-0' } else { // nothing is forbidden ret = '*' } } else if (gtlt && anyX) { // we know patch is an x, because we have any x at all. // replace X with 0 if (xm) { m = 0 } p = 0 if (gtlt === '>') { // >1 => >=2.0.0 // >1.2 => >=1.3.0 // >1.2.3 => >= 1.2.4 gtlt = '>=' if (xm) { M = +M + 1 m = 0 p = 0 } else { m = +m + 1 p = 0 } } else if (gtlt === '<=') { // <=0.7.x is actually <0.8.0, since any 0.7.x should // pass. Similarly, <=7.x is actually <8.0.0, etc. gtlt = '<' if (xm) { M = +M + 1 } else { m = +m + 1 } } ret = gtlt + M + '.' + m + '.' + p + pr } else if (xm) { ret = '>=' + M + '.0.0' + pr + ' <' + (+M + 1) + '.0.0' + pr } else if (xp) { ret = '>=' + M + '.' + m + '.0' + pr + ' <' + M + '.' + (+m + 1) + '.0' + pr } debug('xRange return', ret) return ret }) } // Because * is AND-ed with everything else in the comparator, // and '' means "any version", just remove the *s entirely. function replaceStars (comp, options) { debug('replaceStars', comp, options) // Looseness is ignored here. star is always as loose as it gets! return comp.trim().replace(safeRe[t.STAR], '') } // This function is passed to string.replace(re[t.HYPHENRANGE]) // M, m, patch, prerelease, build // 1.2 - 3.4.5 => >=1.2.0 <=3.4.5 // 1.2.3 - 3.4 => >=1.2.0 <3.5.0 Any 3.4.x will do // 1.2 - 3.4 => >=1.2.0 <3.5.0 function hyphenReplace ($0, from, fM, fm, fp, fpr, fb, to, tM, tm, tp, tpr, tb) { if (isX(fM)) { from = '' } else if (isX(fm)) { from = '>=' + fM + '.0.0' } else if (isX(fp)) { from = '>=' + fM + '.' + fm + '.0' } else { from = '>=' + from } if (isX(tM)) { to = '' } else if (isX(tm)) { to = '<' + (+tM + 1) + '.0.0' } else if (isX(tp)) { to = '<' + tM + '.' + (+tm + 1) + '.0' } else if (tpr) { to = '<=' + tM + '.' + tm + '.' + tp + '-' + tpr } else { to = '<=' + to } return (from + ' ' + to).trim() } // if ANY of the sets match ALL of its comparators, then pass Range.prototype.test = function (version) { if (!version) { return false } if (typeof version === 'string') { try { version = new SemVer(version, this.options) } catch (er) { return false } } for (var i = 0; i < this.set.length; i++) { if (testSet(this.set[i], version, this.options)) { return true } } return false } function testSet (set, version, options) { for (var i = 0; i < set.length; i++) { if (!set[i].test(version)) { return false } } if (version.prerelease.length && !options.includePrerelease) { // Find the set of versions that are allowed to have prereleases // For example, ^1.2.3-pr.1 desugars to >=1.2.3-pr.1 <2.0.0 // That should allow `1.2.3-pr.2` to pass. // However, `1.2.4-alpha.notready` should NOT be allowed, // even though it's within the range set by the comparators. for (i = 0; i < set.length; i++) { debug(set[i].semver) if (set[i].semver === ANY) { continue } if (set[i].semver.prerelease.length > 0) { var allowed = set[i].semver if (allowed.major === version.major && allowed.minor === version.minor && allowed.patch === version.patch) { return true } } } // Version has a -pre, but it's not one of the ones we like. return false } return true } exports.satisfies = satisfies function satisfies (version, range, options) { try { range = new Range(range, options) } catch (er) { return false } return range.test(version) } exports.maxSatisfying = maxSatisfying function maxSatisfying (versions, range, options) { var max = null var maxSV = null try { var rangeObj = new Range(range, options) } catch (er) { return null } versions.forEach(function (v) { if (rangeObj.test(v)) { // satisfies(v, range, options) if (!max || maxSV.compare(v) === -1) { // compare(max, v, true) max = v maxSV = new SemVer(max, options) } } }) return max } exports.minSatisfying = minSatisfying function minSatisfying (versions, range, options) { var min = null var minSV = null try { var rangeObj = new Range(range, options) } catch (er) { return null } versions.forEach(function (v) { if (rangeObj.test(v)) { // satisfies(v, range, options) if (!min || minSV.compare(v) === 1) { // compare(min, v, true) min = v minSV = new SemVer(min, options) } } }) return min } exports.minVersion = minVersion function minVersion (range, loose) { range = new Range(range, loose) var minver = new SemVer('0.0.0') if (range.test(minver)) { return minver } minver = new SemVer('0.0.0-0') if (range.test(minver)) { return minver } minver = null for (var i = 0; i < range.set.length; ++i) { var comparators = range.set[i] comparators.forEach(function (comparator) { // Clone to avoid manipulating the comparator's semver object. var compver = new SemVer(comparator.semver.version) switch (comparator.operator) { case '>': if (compver.prerelease.length === 0) { compver.patch++ } else { compver.prerelease.push(0) } compver.raw = compver.format() /* fallthrough */ case '': case '>=': if (!minver || gt(minver, compver)) { minver = compver } break case '<': case '<=': /* Ignore maximum versions */ break /* istanbul ignore next */ default: throw new Error('Unexpected operation: ' + comparator.operator) } }) } if (minver && range.test(minver)) { return minver } return null } exports.validRange = validRange function validRange (range, options) { try { // Return '*' instead of '' so that truthiness works. // This will throw if it's invalid anyway return new Range(range, options).range || '*' } catch (er) { return null } } // Determine if version is less than all the versions possible in the range exports.ltr = ltr function ltr (version, range, options) { return outside(version, range, '<', options) } // Determine if version is greater than all the versions possible in the range. exports.gtr = gtr function gtr (version, range, options) { return outside(version, range, '>', options) } exports.outside = outside function outside (version, range, hilo, options) { version = new SemVer(version, options) range = new Range(range, options) var gtfn, ltefn, ltfn, comp, ecomp switch (hilo) { case '>': gtfn = gt ltefn = lte ltfn = lt comp = '>' ecomp = '>=' break case '<': gtfn = lt ltefn = gte ltfn = gt comp = '<' ecomp = '<=' break default: throw new TypeError('Must provide a hilo val of "<" or ">"') } // If it satisifes the range it is not outside if (satisfies(version, range, options)) { return false } // From now on, variable terms are as if we're in "gtr" mode. // but note that everything is flipped for the "ltr" function. for (var i = 0; i < range.set.length; ++i) { var comparators = range.set[i] var high = null var low = null comparators.forEach(function (comparator) { if (comparator.semver === ANY) { comparator = new Comparator('>=0.0.0') } high = high || comparator low = low || comparator if (gtfn(comparator.semver, high.semver, options)) { high = comparator } else if (ltfn(comparator.semver, low.semver, options)) { low = comparator } }) // If the edge version comparator has a operator then our version // isn't outside it if (high.operator === comp || high.operator === ecomp) { return false } // If the lowest version comparator has an operator and our version // is less than it then it isn't higher than the range if ((!low.operator || low.operator === comp) && ltefn(version, low.semver)) { return false } else if (low.operator === ecomp && ltfn(version, low.semver)) { return false } } return true } exports.prerelease = prerelease function prerelease (version, options) { var parsed = parse(version, options) return (parsed && parsed.prerelease.length) ? parsed.prerelease : null } exports.intersects = intersects function intersects (r1, r2, options) { r1 = new Range(r1, options) r2 = new Range(r2, options) return r1.intersects(r2) } exports.coerce = coerce function coerce (version, options) { if (version instanceof SemVer) { return version } if (typeof version === 'number') { version = String(version) } if (typeof version !== 'string') { return null } options = options || {} var match = null if (!options.rtl) { match = version.match(safeRe[t.COERCE]) } else { // Find the right-most coercible string that does not share // a terminus with a more left-ward coercible string. // Eg, '1.2.3.4' wants to coerce '2.3.4', not '3.4' or '4' // // Walk through the string checking with a /g regexp // Manually set the index so as to pick up overlapping matches. // Stop when we get a match that ends at the string end, since no // coercible string can be more right-ward without the same terminus. var next while ((next = safeRe[t.COERCERTL].exec(version)) && (!match || match.index + match[0].length !== version.length) ) { if (!match || next.index + next[0].length !== match.index + match[0].length) { match = next } safeRe[t.COERCERTL].lastIndex = next.index + next[1].length + next[2].length } // leave it in a clean state safeRe[t.COERCERTL].lastIndex = -1 } if (match === null) { return null } return parse(match[2] + '.' + (match[3] || '0') + '.' + (match[4] || '0'), options) } /***/ }), /***/ 52557: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /// const listenersMap = new WeakMap(); const abortedMap = new WeakMap(); /** * An aborter instance implements AbortSignal interface, can abort HTTP requests. * * - Call AbortSignal.none to create a new AbortSignal instance that cannot be cancelled. * Use `AbortSignal.none` when you are required to pass a cancellation token but the operation * cannot or will not ever be cancelled. * * @example * Abort without timeout * ```ts * await doAsyncWork(AbortSignal.none); * ``` */ class AbortSignal { constructor() { /** * onabort event listener. */ this.onabort = null; listenersMap.set(this, []); abortedMap.set(this, false); } /** * Status of whether aborted or not. * * @readonly */ get aborted() { if (!abortedMap.has(this)) { throw new TypeError("Expected `this` to be an instance of AbortSignal."); } return abortedMap.get(this); } /** * Creates a new AbortSignal instance that will never be aborted. * * @readonly */ static get none() { return new AbortSignal(); } /** * Added new "abort" event listener, only support "abort" event. * * @param _type - Only support "abort" event * @param listener - The listener to be added */ addEventListener( // tslint:disable-next-line:variable-name _type, listener) { if (!listenersMap.has(this)) { throw new TypeError("Expected `this` to be an instance of AbortSignal."); } const listeners = listenersMap.get(this); listeners.push(listener); } /** * Remove "abort" event listener, only support "abort" event. * * @param _type - Only support "abort" event * @param listener - The listener to be removed */ removeEventListener( // tslint:disable-next-line:variable-name _type, listener) { if (!listenersMap.has(this)) { throw new TypeError("Expected `this` to be an instance of AbortSignal."); } const listeners = listenersMap.get(this); const index = listeners.indexOf(listener); if (index > -1) { listeners.splice(index, 1); } } /** * Dispatches a synthetic event to the AbortSignal. */ dispatchEvent(_event) { throw new Error("This is a stub dispatchEvent implementation that should not be used. It only exists for type-checking purposes."); } } /** * Helper to trigger an abort event immediately, the onabort and all abort event listeners will be triggered. * Will try to trigger abort event for all linked AbortSignal nodes. * * - If there is a timeout, the timer will be cancelled. * - If aborted is true, nothing will happen. * * @internal */ // eslint-disable-next-line @azure/azure-sdk/ts-use-interface-parameters function abortSignal(signal) { if (signal.aborted) { return; } if (signal.onabort) { signal.onabort.call(signal); } const listeners = listenersMap.get(signal); if (listeners) { // Create a copy of listeners so mutations to the array // (e.g. via removeListener calls) don't affect the listeners // we invoke. listeners.slice().forEach((listener) => { listener.call(signal, { type: "abort" }); }); } abortedMap.set(signal, true); } // Copyright (c) Microsoft Corporation. /** * This error is thrown when an asynchronous operation has been aborted. * Check for this error by testing the `name` that the name property of the * error matches `"AbortError"`. * * @example * ```ts * const controller = new AbortController(); * controller.abort(); * try { * doAsyncWork(controller.signal) * } catch (e) { * if (e.name === 'AbortError') { * // handle abort error here. * } * } * ``` */ class AbortError extends Error { constructor(message) { super(message); this.name = "AbortError"; } } /** * An AbortController provides an AbortSignal and the associated controls to signal * that an asynchronous operation should be aborted. * * @example * Abort an operation when another event fires * ```ts * const controller = new AbortController(); * const signal = controller.signal; * doAsyncWork(signal); * button.addEventListener('click', () => controller.abort()); * ``` * * @example * Share aborter cross multiple operations in 30s * ```ts * // Upload the same data to 2 different data centers at the same time, * // abort another when any of them is finished * const controller = AbortController.withTimeout(30 * 1000); * doAsyncWork(controller.signal).then(controller.abort); * doAsyncWork(controller.signal).then(controller.abort); *``` * * @example * Cascaded aborting * ```ts * // All operations can't take more than 30 seconds * const aborter = Aborter.timeout(30 * 1000); * * // Following 2 operations can't take more than 25 seconds * await doAsyncWork(aborter.withTimeout(25 * 1000)); * await doAsyncWork(aborter.withTimeout(25 * 1000)); * ``` */ class AbortController { // eslint-disable-next-line @typescript-eslint/explicit-module-boundary-types constructor(parentSignals) { this._signal = new AbortSignal(); if (!parentSignals) { return; } // coerce parentSignals into an array if (!Array.isArray(parentSignals)) { // eslint-disable-next-line prefer-rest-params parentSignals = arguments; } for (const parentSignal of parentSignals) { // if the parent signal has already had abort() called, // then call abort on this signal as well. if (parentSignal.aborted) { this.abort(); } else { // when the parent signal aborts, this signal should as well. parentSignal.addEventListener("abort", () => { this.abort(); }); } } } /** * The AbortSignal associated with this controller that will signal aborted * when the abort method is called on this controller. * * @readonly */ get signal() { return this._signal; } /** * Signal that any operations passed this controller's associated abort signal * to cancel any remaining work and throw an `AbortError`. */ abort() { abortSignal(this._signal); } /** * Creates a new AbortSignal instance that will abort after the provided ms. * @param ms - Elapsed time in milliseconds to trigger an abort. */ static timeout(ms) { const signal = new AbortSignal(); const timer = setTimeout(abortSignal, ms, signal); // Prevent the active Timer from keeping the Node.js event loop active. if (typeof timer.unref === "function") { timer.unref(); } return signal; } } exports.AbortController = AbortController; exports.AbortError = AbortError; exports.AbortSignal = AbortSignal; //# sourceMappingURL=index.js.map /***/ }), /***/ 2356: /***/ (() => { "use strict"; // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. if (typeof Symbol === undefined || !Symbol.asyncIterator) { Symbol.asyncIterator = Symbol.for("Symbol.asyncIterator"); } //# sourceMappingURL=index.js.map /***/ }), /***/ 39645: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /** * A static-key-based credential that supports updating * the underlying key value. */ class AzureKeyCredential { /** * Create an instance of an AzureKeyCredential for use * with a service client. * * @param key - The initial value of the key to use in authentication */ constructor(key) { if (!key) { throw new Error("key must be a non-empty string"); } this._key = key; } /** * The value of the key to be used in authentication */ get key() { return this._key; } /** * Change the value of the key. * * Updates will take effect upon the next request after * updating the key value. * * @param newKey - The new key value to be used */ update(newKey) { this._key = newKey; } } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /** * Helper TypeGuard that checks if something is defined or not. * @param thing - Anything * @internal */ function isDefined(thing) { return typeof thing !== "undefined" && thing !== null; } /** * Helper TypeGuard that checks if the input is an object with the specified properties. * Note: The properties may be inherited. * @param thing - Anything. * @param properties - The name of the properties that should appear in the object. * @internal */ function isObjectWithProperties(thing, properties) { if (!isDefined(thing) || typeof thing !== "object") { return false; } for (const property of properties) { if (!objectHasProperty(thing, property)) { return false; } } return true; } /** * Helper TypeGuard that checks if the input is an object with the specified property. * Note: The property may be inherited. * @param thing - Any object. * @param property - The name of the property that should appear in the object. * @internal */ function objectHasProperty(thing, property) { return typeof thing === "object" && property in thing; } // Copyright (c) Microsoft Corporation. /** * A static name/key-based credential that supports updating * the underlying name and key values. */ class AzureNamedKeyCredential { /** * Create an instance of an AzureNamedKeyCredential for use * with a service client. * * @param name - The initial value of the name to use in authentication. * @param key - The initial value of the key to use in authentication. */ constructor(name, key) { if (!name || !key) { throw new TypeError("name and key must be non-empty strings"); } this._name = name; this._key = key; } /** * The value of the key to be used in authentication. */ get key() { return this._key; } /** * The value of the name to be used in authentication. */ get name() { return this._name; } /** * Change the value of the key. * * Updates will take effect upon the next request after * updating the key value. * * @param newName - The new name value to be used. * @param newKey - The new key value to be used. */ update(newName, newKey) { if (!newName || !newKey) { throw new TypeError("newName and newKey must be non-empty strings"); } this._name = newName; this._key = newKey; } } /** * Tests an object to determine whether it implements NamedKeyCredential. * * @param credential - The assumed NamedKeyCredential to be tested. */ function isNamedKeyCredential(credential) { return (isObjectWithProperties(credential, ["name", "key"]) && typeof credential.key === "string" && typeof credential.name === "string"); } // Copyright (c) Microsoft Corporation. /** * A static-signature-based credential that supports updating * the underlying signature value. */ class AzureSASCredential { /** * Create an instance of an AzureSASCredential for use * with a service client. * * @param signature - The initial value of the shared access signature to use in authentication */ constructor(signature) { if (!signature) { throw new Error("shared access signature must be a non-empty string"); } this._signature = signature; } /** * The value of the shared access signature to be used in authentication */ get signature() { return this._signature; } /** * Change the value of the signature. * * Updates will take effect upon the next request after * updating the signature value. * * @param newSignature - The new shared access signature value to be used */ update(newSignature) { if (!newSignature) { throw new Error("shared access signature must be a non-empty string"); } this._signature = newSignature; } } /** * Tests an object to determine whether it implements SASCredential. * * @param credential - The assumed SASCredential to be tested. */ function isSASCredential(credential) { return (isObjectWithProperties(credential, ["signature"]) && typeof credential.signature === "string"); } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /** * Tests an object to determine whether it implements TokenCredential. * * @param credential - The assumed TokenCredential to be tested. */ function isTokenCredential(credential) { // Check for an object with a 'getToken' function and possibly with // a 'signRequest' function. We do this check to make sure that // a ServiceClientCredentials implementor (like TokenClientCredentials // in ms-rest-nodeauth) doesn't get mistaken for a TokenCredential if // it doesn't actually implement TokenCredential also. const castCredential = credential; return (castCredential && typeof castCredential.getToken === "function" && (castCredential.signRequest === undefined || castCredential.getToken.length > 0)); } exports.AzureKeyCredential = AzureKeyCredential; exports.AzureNamedKeyCredential = AzureNamedKeyCredential; exports.AzureSASCredential = AzureSASCredential; exports.isNamedKeyCredential = isNamedKeyCredential; exports.isSASCredential = isSASCredential; exports.isTokenCredential = isTokenCredential; //# sourceMappingURL=index.js.map /***/ }), /***/ 24607: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var uuid = __nccwpck_require__(43415); var util = __nccwpck_require__(73837); var tslib = __nccwpck_require__(82107); var xml2js = __nccwpck_require__(66189); var coreUtil = __nccwpck_require__(51333); var logger$1 = __nccwpck_require__(3233); var coreAuth = __nccwpck_require__(39645); var os = __nccwpck_require__(22037); var http = __nccwpck_require__(13685); var https = __nccwpck_require__(95687); var abortController = __nccwpck_require__(52557); var tunnel = __nccwpck_require__(74294); var stream = __nccwpck_require__(12781); var FormData = __nccwpck_require__(46279); var node_fetch = __nccwpck_require__(80467); var coreTracing = __nccwpck_require__(94175); function _interopDefaultLegacy (e) { return e && typeof e === 'object' && 'default' in e ? e : { 'default': e }; } function _interopNamespace(e) { if (e && e.__esModule) return e; var n = Object.create(null); if (e) { Object.keys(e).forEach(function (k) { if (k !== 'default') { var d = Object.getOwnPropertyDescriptor(e, k); Object.defineProperty(n, k, d.get ? d : { enumerable: true, get: function () { return e[k]; } }); } }); } n["default"] = e; return Object.freeze(n); } var xml2js__namespace = /*#__PURE__*/_interopNamespace(xml2js); var os__namespace = /*#__PURE__*/_interopNamespace(os); var http__namespace = /*#__PURE__*/_interopNamespace(http); var https__namespace = /*#__PURE__*/_interopNamespace(https); var tunnel__namespace = /*#__PURE__*/_interopNamespace(tunnel); var FormData__default = /*#__PURE__*/_interopDefaultLegacy(FormData); var node_fetch__default = /*#__PURE__*/_interopDefaultLegacy(node_fetch); // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /** * A collection of HttpHeaders that can be sent with a HTTP request. */ function getHeaderKey(headerName) { return headerName.toLowerCase(); } function isHttpHeadersLike(object) { if (object && typeof object === "object") { const castObject = object; if (typeof castObject.rawHeaders === "function" && typeof castObject.clone === "function" && typeof castObject.get === "function" && typeof castObject.set === "function" && typeof castObject.contains === "function" && typeof castObject.remove === "function" && typeof castObject.headersArray === "function" && typeof castObject.headerValues === "function" && typeof castObject.headerNames === "function" && typeof castObject.toJson === "function") { return true; } } return false; } /** * A collection of HTTP header key/value pairs. */ class HttpHeaders { constructor(rawHeaders) { this._headersMap = {}; if (rawHeaders) { for (const headerName in rawHeaders) { this.set(headerName, rawHeaders[headerName]); } } } /** * Set a header in this collection with the provided name and value. The name is * case-insensitive. * @param headerName - The name of the header to set. This value is case-insensitive. * @param headerValue - The value of the header to set. */ set(headerName, headerValue) { this._headersMap[getHeaderKey(headerName)] = { name: headerName, value: headerValue.toString(), }; } /** * Get the header value for the provided header name, or undefined if no header exists in this * collection with the provided name. * @param headerName - The name of the header. */ get(headerName) { const header = this._headersMap[getHeaderKey(headerName)]; return !header ? undefined : header.value; } /** * Get whether or not this header collection contains a header entry for the provided header name. */ contains(headerName) { return !!this._headersMap[getHeaderKey(headerName)]; } /** * Remove the header with the provided headerName. Return whether or not the header existed and * was removed. * @param headerName - The name of the header to remove. */ remove(headerName) { const result = this.contains(headerName); delete this._headersMap[getHeaderKey(headerName)]; return result; } /** * Get the headers that are contained this collection as an object. */ rawHeaders() { return this.toJson({ preserveCase: true }); } /** * Get the headers that are contained in this collection as an array. */ headersArray() { const headers = []; for (const headerKey in this._headersMap) { headers.push(this._headersMap[headerKey]); } return headers; } /** * Get the header names that are contained in this collection. */ headerNames() { const headerNames = []; const headers = this.headersArray(); for (let i = 0; i < headers.length; ++i) { headerNames.push(headers[i].name); } return headerNames; } /** * Get the header values that are contained in this collection. */ headerValues() { const headerValues = []; const headers = this.headersArray(); for (let i = 0; i < headers.length; ++i) { headerValues.push(headers[i].value); } return headerValues; } /** * Get the JSON object representation of this HTTP header collection. */ toJson(options = {}) { const result = {}; if (options.preserveCase) { for (const headerKey in this._headersMap) { const header = this._headersMap[headerKey]; result[header.name] = header.value; } } else { for (const headerKey in this._headersMap) { const header = this._headersMap[headerKey]; result[getHeaderKey(header.name)] = header.value; } } return result; } /** * Get the string representation of this HTTP header collection. */ toString() { return JSON.stringify(this.toJson({ preserveCase: true })); } /** * Create a deep clone/copy of this HttpHeaders collection. */ clone() { const resultPreservingCasing = {}; for (const headerKey in this._headersMap) { const header = this._headersMap[headerKey]; resultPreservingCasing[header.name] = header.value; } return new HttpHeaders(resultPreservingCasing); } } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /** * Encodes a string in base64 format. * @param value - The string to encode */ function encodeString(value) { return Buffer.from(value).toString("base64"); } /** * Encodes a byte array in base64 format. * @param value - The Uint8Aray to encode */ function encodeByteArray(value) { // Buffer.from accepts | -- the TypeScript definition is off here // https://nodejs.org/api/buffer.html#buffer_class_method_buffer_from_arraybuffer_byteoffset_length const bufferValue = value instanceof Buffer ? value : Buffer.from(value.buffer); return bufferValue.toString("base64"); } /** * Decodes a base64 string into a byte array. * @param value - The base64 string to decode */ function decodeString(value) { return Buffer.from(value, "base64"); } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /** * A set of constants used internally when processing requests. */ const Constants = { /** * The core-http version */ coreHttpVersion: "3.0.1", /** * Specifies HTTP. */ HTTP: "http:", /** * Specifies HTTPS. */ HTTPS: "https:", /** * Specifies HTTP Proxy. */ HTTP_PROXY: "HTTP_PROXY", /** * Specifies HTTPS Proxy. */ HTTPS_PROXY: "HTTPS_PROXY", /** * Specifies NO Proxy. */ NO_PROXY: "NO_PROXY", /** * Specifies ALL Proxy. */ ALL_PROXY: "ALL_PROXY", HttpConstants: { /** * Http Verbs */ HttpVerbs: { PUT: "PUT", GET: "GET", DELETE: "DELETE", POST: "POST", MERGE: "MERGE", HEAD: "HEAD", PATCH: "PATCH", }, StatusCodes: { TooManyRequests: 429, ServiceUnavailable: 503, }, }, /** * Defines constants for use with HTTP headers. */ HeaderConstants: { /** * The Authorization header. */ AUTHORIZATION: "authorization", AUTHORIZATION_SCHEME: "Bearer", /** * The Retry-After response-header field can be used with a 503 (Service * Unavailable) or 349 (Too Many Requests) responses to indicate how long * the service is expected to be unavailable to the requesting client. */ RETRY_AFTER: "Retry-After", /** * The UserAgent header. */ USER_AGENT: "User-Agent", }, }; // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /** * Default key used to access the XML attributes. */ const XML_ATTRKEY = "$"; /** * Default key used to access the XML value content. */ const XML_CHARKEY = "_"; // Copyright (c) Microsoft Corporation. const validUuidRegex = /^[0-9a-fA-F]{8}-[0-9a-fA-F]{4}-[0-9a-fA-F]{4}-[0-9a-fA-F]{4}-[0-9a-fA-F]{12}$/i; /** * A constant that indicates whether the environment is node.js or browser based. */ const isNode = typeof process !== "undefined" && !!process.version && !!process.versions && !!process.versions.node; /** * Encodes an URI. * * @param uri - The URI to be encoded. * @returns The encoded URI. */ function encodeUri(uri) { return encodeURIComponent(uri) .replace(/!/g, "%21") .replace(/"/g, "%27") .replace(/\(/g, "%28") .replace(/\)/g, "%29") .replace(/\*/g, "%2A"); } /** * Returns a stripped version of the Http Response which only contains body, * headers and the status. * * @param response - The Http Response * @returns The stripped version of Http Response. */ function stripResponse(response) { const strippedResponse = {}; strippedResponse.body = response.bodyAsText; strippedResponse.headers = response.headers; strippedResponse.status = response.status; return strippedResponse; } /** * Returns a stripped version of the Http Request that does not contain the * Authorization header. * * @param request - The Http Request object * @returns The stripped version of Http Request. */ function stripRequest(request) { const strippedRequest = request.clone(); if (strippedRequest.headers) { strippedRequest.headers.remove("authorization"); } return strippedRequest; } /** * Validates the given uuid as a string * * @param uuid - The uuid as a string that needs to be validated * @returns True if the uuid is valid; false otherwise. */ function isValidUuid(uuid) { return validUuidRegex.test(uuid); } /** * Generated UUID * * @returns RFC4122 v4 UUID. */ function generateUuid() { return uuid.v4(); } /** * Executes an array of promises sequentially. Inspiration of this method is here: * https://pouchdb.com/2015/05/18/we-have-a-problem-with-promises.html. An awesome blog on promises! * * @param promiseFactories - An array of promise factories(A function that return a promise) * @param kickstart - Input to the first promise that is used to kickstart the promise chain. * If not provided then the promise chain starts with undefined. * @returns A chain of resolved or rejected promises */ function executePromisesSequentially(promiseFactories, kickstart) { let result = Promise.resolve(kickstart); promiseFactories.forEach((promiseFactory) => { result = result.then(promiseFactory); }); return result; } /** * Converts a Promise to a callback. * @param promise - The Promise to be converted to a callback * @returns A function that takes the callback `(cb: Function) => void` * @deprecated generated code should instead depend on responseToBody */ // eslint-disable-next-line @typescript-eslint/ban-types function promiseToCallback(promise) { if (typeof promise.then !== "function") { throw new Error("The provided input is not a Promise."); } // eslint-disable-next-line @typescript-eslint/ban-types return (cb) => { promise .then((data) => { // eslint-disable-next-line promise/no-callback-in-promise return cb(undefined, data); }) .catch((err) => { // eslint-disable-next-line promise/no-callback-in-promise cb(err); }); }; } /** * Converts a Promise to a service callback. * @param promise - The Promise of HttpOperationResponse to be converted to a service callback * @returns A function that takes the service callback (cb: ServiceCallback): void */ function promiseToServiceCallback(promise) { if (typeof promise.then !== "function") { throw new Error("The provided input is not a Promise."); } return (cb) => { promise .then((data) => { return process.nextTick(cb, undefined, data.parsedBody, data.request, data); }) .catch((err) => { process.nextTick(cb, err); }); }; } function prepareXMLRootList(obj, elementName, xmlNamespaceKey, xmlNamespace) { if (!Array.isArray(obj)) { obj = [obj]; } if (!xmlNamespaceKey || !xmlNamespace) { return { [elementName]: obj }; } const result = { [elementName]: obj }; result[XML_ATTRKEY] = { [xmlNamespaceKey]: xmlNamespace }; return result; } /** * Applies the properties on the prototype of sourceCtors to the prototype of targetCtor * @param targetCtor - The target object on which the properties need to be applied. * @param sourceCtors - An array of source objects from which the properties need to be taken. */ function applyMixins(targetCtorParam, sourceCtors) { const castTargetCtorParam = targetCtorParam; sourceCtors.forEach((sourceCtor) => { Object.getOwnPropertyNames(sourceCtor.prototype).forEach((name) => { castTargetCtorParam.prototype[name] = sourceCtor.prototype[name]; }); }); } const validateISODuration = /^(-|\+)?P(?:([-+]?[0-9,.]*)Y)?(?:([-+]?[0-9,.]*)M)?(?:([-+]?[0-9,.]*)W)?(?:([-+]?[0-9,.]*)D)?(?:T(?:([-+]?[0-9,.]*)H)?(?:([-+]?[0-9,.]*)M)?(?:([-+]?[0-9,.]*)S)?)?$/; /** * Indicates whether the given string is in ISO 8601 format. * @param value - The value to be validated for ISO 8601 duration format. * @returns `true` if valid, `false` otherwise. */ function isDuration(value) { return validateISODuration.test(value); } /** * Replace all of the instances of searchValue in value with the provided replaceValue. * @param value - The value to search and replace in. * @param searchValue - The value to search for in the value argument. * @param replaceValue - The value to replace searchValue with in the value argument. * @returns The value where each instance of searchValue was replaced with replacedValue. */ function replaceAll(value, searchValue, replaceValue) { return !value || !searchValue ? value : value.split(searchValue).join(replaceValue || ""); } /** * Determines whether the given entity is a basic/primitive type * (string, number, boolean, null, undefined). * @param value - Any entity * @returns true is it is primitive type, false otherwise. */ function isPrimitiveType(value) { return (typeof value !== "object" && typeof value !== "function") || value === null; } function getEnvironmentValue(name) { if (process.env[name]) { return process.env[name]; } else if (process.env[name.toLowerCase()]) { return process.env[name.toLowerCase()]; } return undefined; } /** * @internal * @returns true when input is an object type that is not null, Array, RegExp, or Date. */ function isObject(input) { return (typeof input === "object" && input !== null && !Array.isArray(input) && !(input instanceof RegExp) && !(input instanceof Date)); } // Copyright (c) Microsoft Corporation. // This file contains utility code to serialize and deserialize network operations according to `OperationSpec` objects generated by AutoRest.TypeScript from OpenAPI specifications. /** * Used to map raw response objects to final shapes. * Helps packing and unpacking Dates and other encoded types that are not intrinsic to JSON. * Also allows pulling values from headers, as well as inserting default values and constants. */ class Serializer { constructor( /** * The provided model mapper. */ modelMappers = {}, /** * Whether the contents are XML or not. */ isXML) { this.modelMappers = modelMappers; this.isXML = isXML; } /** * Validates constraints, if any. This function will throw if the provided value does not respect those constraints. * @param mapper - The definition of data models. * @param value - The value. * @param objectName - Name of the object. Used in the error messages. * @deprecated Removing the constraints validation on client side. */ validateConstraints(mapper, value, objectName) { const failValidation = (constraintName, constraintValue) => { throw new Error(`"${objectName}" with value "${value}" should satisfy the constraint "${constraintName}": ${constraintValue}.`); }; if (mapper.constraints && value != undefined) { const valueAsNumber = value; const { ExclusiveMaximum, ExclusiveMinimum, InclusiveMaximum, InclusiveMinimum, MaxItems, MaxLength, MinItems, MinLength, MultipleOf, Pattern, UniqueItems, } = mapper.constraints; if (ExclusiveMaximum != undefined && valueAsNumber >= ExclusiveMaximum) { failValidation("ExclusiveMaximum", ExclusiveMaximum); } if (ExclusiveMinimum != undefined && valueAsNumber <= ExclusiveMinimum) { failValidation("ExclusiveMinimum", ExclusiveMinimum); } if (InclusiveMaximum != undefined && valueAsNumber > InclusiveMaximum) { failValidation("InclusiveMaximum", InclusiveMaximum); } if (InclusiveMinimum != undefined && valueAsNumber < InclusiveMinimum) { failValidation("InclusiveMinimum", InclusiveMinimum); } const valueAsArray = value; if (MaxItems != undefined && valueAsArray.length > MaxItems) { failValidation("MaxItems", MaxItems); } if (MaxLength != undefined && valueAsArray.length > MaxLength) { failValidation("MaxLength", MaxLength); } if (MinItems != undefined && valueAsArray.length < MinItems) { failValidation("MinItems", MinItems); } if (MinLength != undefined && valueAsArray.length < MinLength) { failValidation("MinLength", MinLength); } if (MultipleOf != undefined && valueAsNumber % MultipleOf !== 0) { failValidation("MultipleOf", MultipleOf); } if (Pattern) { const pattern = typeof Pattern === "string" ? new RegExp(Pattern) : Pattern; if (typeof value !== "string" || value.match(pattern) === null) { failValidation("Pattern", Pattern); } } if (UniqueItems && valueAsArray.some((item, i, ar) => ar.indexOf(item) !== i)) { failValidation("UniqueItems", UniqueItems); } } } /** * Serialize the given object based on its metadata defined in the mapper. * * @param mapper - The mapper which defines the metadata of the serializable object. * @param object - A valid Javascript object to be serialized. * @param objectName - Name of the serialized object. * @param options - additional options to deserialization. * @returns A valid serialized Javascript object. */ serialize(mapper, object, objectName, options = {}) { var _a, _b, _c; const updatedOptions = { rootName: (_a = options.rootName) !== null && _a !== void 0 ? _a : "", includeRoot: (_b = options.includeRoot) !== null && _b !== void 0 ? _b : false, xmlCharKey: (_c = options.xmlCharKey) !== null && _c !== void 0 ? _c : XML_CHARKEY, }; let payload = {}; const mapperType = mapper.type.name; if (!objectName) { objectName = mapper.serializedName; } if (mapperType.match(/^Sequence$/i) !== null) { payload = []; } if (mapper.isConstant) { object = mapper.defaultValue; } // This table of allowed values should help explain // the mapper.required and mapper.nullable properties. // X means "neither undefined or null are allowed". // || required // || true | false // nullable || ========================== // true || null | undefined/null // false || X | undefined // undefined || X | undefined/null const { required, nullable } = mapper; if (required && nullable && object === undefined) { throw new Error(`${objectName} cannot be undefined.`); } if (required && !nullable && object == undefined) { throw new Error(`${objectName} cannot be null or undefined.`); } if (!required && nullable === false && object === null) { throw new Error(`${objectName} cannot be null.`); } if (object == undefined) { payload = object; } else { if (mapperType.match(/^any$/i) !== null) { payload = object; } else if (mapperType.match(/^(Number|String|Boolean|Object|Stream|Uuid)$/i) !== null) { payload = serializeBasicTypes(mapperType, objectName, object); } else if (mapperType.match(/^Enum$/i) !== null) { const enumMapper = mapper; payload = serializeEnumType(objectName, enumMapper.type.allowedValues, object); } else if (mapperType.match(/^(Date|DateTime|TimeSpan|DateTimeRfc1123|UnixTime)$/i) !== null) { payload = serializeDateTypes(mapperType, object, objectName); } else if (mapperType.match(/^ByteArray$/i) !== null) { payload = serializeByteArrayType(objectName, object); } else if (mapperType.match(/^Base64Url$/i) !== null) { payload = serializeBase64UrlType(objectName, object); } else if (mapperType.match(/^Sequence$/i) !== null) { payload = serializeSequenceType(this, mapper, object, objectName, Boolean(this.isXML), updatedOptions); } else if (mapperType.match(/^Dictionary$/i) !== null) { payload = serializeDictionaryType(this, mapper, object, objectName, Boolean(this.isXML), updatedOptions); } else if (mapperType.match(/^Composite$/i) !== null) { payload = serializeCompositeType(this, mapper, object, objectName, Boolean(this.isXML), updatedOptions); } } return payload; } /** * Deserialize the given object based on its metadata defined in the mapper. * * @param mapper - The mapper which defines the metadata of the serializable object. * @param responseBody - A valid Javascript entity to be deserialized. * @param objectName - Name of the deserialized object. * @param options - Controls behavior of XML parser and builder. * @returns A valid deserialized Javascript object. */ deserialize(mapper, responseBody, objectName, options = {}) { var _a, _b, _c; const updatedOptions = { rootName: (_a = options.rootName) !== null && _a !== void 0 ? _a : "", includeRoot: (_b = options.includeRoot) !== null && _b !== void 0 ? _b : false, xmlCharKey: (_c = options.xmlCharKey) !== null && _c !== void 0 ? _c : XML_CHARKEY, }; if (responseBody == undefined) { if (this.isXML && mapper.type.name === "Sequence" && !mapper.xmlIsWrapped) { // Edge case for empty XML non-wrapped lists. xml2js can't distinguish // between the list being empty versus being missing, // so let's do the more user-friendly thing and return an empty list. responseBody = []; } // specifically check for undefined as default value can be a falsey value `0, "", false, null` if (mapper.defaultValue !== undefined) { responseBody = mapper.defaultValue; } return responseBody; } let payload; const mapperType = mapper.type.name; if (!objectName) { objectName = mapper.serializedName; } if (mapperType.match(/^Composite$/i) !== null) { payload = deserializeCompositeType(this, mapper, responseBody, objectName, updatedOptions); } else { if (this.isXML) { const xmlCharKey = updatedOptions.xmlCharKey; const castResponseBody = responseBody; /** * If the mapper specifies this as a non-composite type value but the responseBody contains * both header ("$" i.e., XML_ATTRKEY) and body ("#" i.e., XML_CHARKEY) properties, * then just reduce the responseBody value to the body ("#" i.e., XML_CHARKEY) property. */ if (castResponseBody[XML_ATTRKEY] != undefined && castResponseBody[xmlCharKey] != undefined) { responseBody = castResponseBody[xmlCharKey]; } } if (mapperType.match(/^Number$/i) !== null) { payload = parseFloat(responseBody); if (isNaN(payload)) { payload = responseBody; } } else if (mapperType.match(/^Boolean$/i) !== null) { if (responseBody === "true") { payload = true; } else if (responseBody === "false") { payload = false; } else { payload = responseBody; } } else if (mapperType.match(/^(String|Enum|Object|Stream|Uuid|TimeSpan|any)$/i) !== null) { payload = responseBody; } else if (mapperType.match(/^(Date|DateTime|DateTimeRfc1123)$/i) !== null) { payload = new Date(responseBody); } else if (mapperType.match(/^UnixTime$/i) !== null) { payload = unixTimeToDate(responseBody); } else if (mapperType.match(/^ByteArray$/i) !== null) { payload = decodeString(responseBody); } else if (mapperType.match(/^Base64Url$/i) !== null) { payload = base64UrlToByteArray(responseBody); } else if (mapperType.match(/^Sequence$/i) !== null) { payload = deserializeSequenceType(this, mapper, responseBody, objectName, updatedOptions); } else if (mapperType.match(/^Dictionary$/i) !== null) { payload = deserializeDictionaryType(this, mapper, responseBody, objectName, updatedOptions); } } if (mapper.isConstant) { payload = mapper.defaultValue; } return payload; } } function trimEnd(str, ch) { let len = str.length; while (len - 1 >= 0 && str[len - 1] === ch) { --len; } return str.substr(0, len); } function bufferToBase64Url(buffer) { if (!buffer) { return undefined; } if (!(buffer instanceof Uint8Array)) { throw new Error(`Please provide an input of type Uint8Array for converting to Base64Url.`); } // Uint8Array to Base64. const str = encodeByteArray(buffer); // Base64 to Base64Url. return trimEnd(str, "=").replace(/\+/g, "-").replace(/\//g, "_"); } function base64UrlToByteArray(str) { if (!str) { return undefined; } if (str && typeof str.valueOf() !== "string") { throw new Error("Please provide an input of type string for converting to Uint8Array"); } // Base64Url to Base64. str = str.replace(/-/g, "+").replace(/_/g, "/"); // Base64 to Uint8Array. return decodeString(str); } function splitSerializeName(prop) { const classes = []; let partialclass = ""; if (prop) { const subwords = prop.split("."); for (const item of subwords) { if (item.charAt(item.length - 1) === "\\") { partialclass += item.substr(0, item.length - 1) + "."; } else { partialclass += item; classes.push(partialclass); partialclass = ""; } } } return classes; } function dateToUnixTime(d) { if (!d) { return undefined; } if (typeof d.valueOf() === "string") { d = new Date(d); } return Math.floor(d.getTime() / 1000); } function unixTimeToDate(n) { if (!n) { return undefined; } return new Date(n * 1000); } function serializeBasicTypes(typeName, objectName, value) { if (value !== null && value !== undefined) { if (typeName.match(/^Number$/i) !== null) { if (typeof value !== "number") { throw new Error(`${objectName} with value ${value} must be of type number.`); } } else if (typeName.match(/^String$/i) !== null) { if (typeof value.valueOf() !== "string") { throw new Error(`${objectName} with value "${value}" must be of type string.`); } } else if (typeName.match(/^Uuid$/i) !== null) { if (!(typeof value.valueOf() === "string" && isValidUuid(value))) { throw new Error(`${objectName} with value "${value}" must be of type string and a valid uuid.`); } } else if (typeName.match(/^Boolean$/i) !== null) { if (typeof value !== "boolean") { throw new Error(`${objectName} with value ${value} must be of type boolean.`); } } else if (typeName.match(/^Stream$/i) !== null) { const objectType = typeof value; if (objectType !== "string" && objectType !== "function" && !(value instanceof ArrayBuffer) && !ArrayBuffer.isView(value) && !((typeof Blob === "function" || typeof Blob === "object") && value instanceof Blob)) { throw new Error(`${objectName} must be a string, Blob, ArrayBuffer, ArrayBufferView, or a function returning NodeJS.ReadableStream.`); } } } return value; } function serializeEnumType(objectName, allowedValues, value) { if (!allowedValues) { throw new Error(`Please provide a set of allowedValues to validate ${objectName} as an Enum Type.`); } const isPresent = allowedValues.some((item) => { if (typeof item.valueOf() === "string") { return item.toLowerCase() === value.toLowerCase(); } return item === value; }); if (!isPresent) { throw new Error(`${value} is not a valid value for ${objectName}. The valid values are: ${JSON.stringify(allowedValues)}.`); } return value; } function serializeByteArrayType(objectName, value) { let returnValue = ""; if (value != undefined) { if (!(value instanceof Uint8Array)) { throw new Error(`${objectName} must be of type Uint8Array.`); } returnValue = encodeByteArray(value); } return returnValue; } function serializeBase64UrlType(objectName, value) { let returnValue = ""; if (value != undefined) { if (!(value instanceof Uint8Array)) { throw new Error(`${objectName} must be of type Uint8Array.`); } returnValue = bufferToBase64Url(value) || ""; } return returnValue; } function serializeDateTypes(typeName, value, objectName) { if (value != undefined) { if (typeName.match(/^Date$/i) !== null) { if (!(value instanceof Date || (typeof value.valueOf() === "string" && !isNaN(Date.parse(value))))) { throw new Error(`${objectName} must be an instanceof Date or a string in ISO8601 format.`); } value = value instanceof Date ? value.toISOString().substring(0, 10) : new Date(value).toISOString().substring(0, 10); } else if (typeName.match(/^DateTime$/i) !== null) { if (!(value instanceof Date || (typeof value.valueOf() === "string" && !isNaN(Date.parse(value))))) { throw new Error(`${objectName} must be an instanceof Date or a string in ISO8601 format.`); } value = value instanceof Date ? value.toISOString() : new Date(value).toISOString(); } else if (typeName.match(/^DateTimeRfc1123$/i) !== null) { if (!(value instanceof Date || (typeof value.valueOf() === "string" && !isNaN(Date.parse(value))))) { throw new Error(`${objectName} must be an instanceof Date or a string in RFC-1123 format.`); } value = value instanceof Date ? value.toUTCString() : new Date(value).toUTCString(); } else if (typeName.match(/^UnixTime$/i) !== null) { if (!(value instanceof Date || (typeof value.valueOf() === "string" && !isNaN(Date.parse(value))))) { throw new Error(`${objectName} must be an instanceof Date or a string in RFC-1123/ISO8601 format ` + `for it to be serialized in UnixTime/Epoch format.`); } value = dateToUnixTime(value); } else if (typeName.match(/^TimeSpan$/i) !== null) { if (!isDuration(value)) { throw new Error(`${objectName} must be a string in ISO 8601 format. Instead was "${value}".`); } } } return value; } function serializeSequenceType(serializer, mapper, object, objectName, isXml, options) { if (!Array.isArray(object)) { throw new Error(`${objectName} must be of type Array.`); } const elementType = mapper.type.element; if (!elementType || typeof elementType !== "object") { throw new Error(`element" metadata for an Array must be defined in the ` + `mapper and it must of type "object" in ${objectName}.`); } const tempArray = []; for (let i = 0; i < object.length; i++) { const serializedValue = serializer.serialize(elementType, object[i], objectName, options); if (isXml && elementType.xmlNamespace) { const xmlnsKey = elementType.xmlNamespacePrefix ? `xmlns:${elementType.xmlNamespacePrefix}` : "xmlns"; if (elementType.type.name === "Composite") { tempArray[i] = Object.assign({}, serializedValue); tempArray[i][XML_ATTRKEY] = { [xmlnsKey]: elementType.xmlNamespace }; } else { tempArray[i] = {}; tempArray[i][options.xmlCharKey] = serializedValue; tempArray[i][XML_ATTRKEY] = { [xmlnsKey]: elementType.xmlNamespace }; } } else { tempArray[i] = serializedValue; } } return tempArray; } function serializeDictionaryType(serializer, mapper, object, objectName, isXml, options) { if (typeof object !== "object") { throw new Error(`${objectName} must be of type object.`); } const valueType = mapper.type.value; if (!valueType || typeof valueType !== "object") { throw new Error(`"value" metadata for a Dictionary must be defined in the ` + `mapper and it must of type "object" in ${objectName}.`); } const tempDictionary = {}; for (const key of Object.keys(object)) { const serializedValue = serializer.serialize(valueType, object[key], objectName, options); // If the element needs an XML namespace we need to add it within the $ property tempDictionary[key] = getXmlObjectValue(valueType, serializedValue, isXml, options); } // Add the namespace to the root element if needed if (isXml && mapper.xmlNamespace) { const xmlnsKey = mapper.xmlNamespacePrefix ? `xmlns:${mapper.xmlNamespacePrefix}` : "xmlns"; const result = tempDictionary; result[XML_ATTRKEY] = { [xmlnsKey]: mapper.xmlNamespace }; return result; } return tempDictionary; } /** * Resolves the additionalProperties property from a referenced mapper. * @param serializer - The serializer containing the entire set of mappers. * @param mapper - The composite mapper to resolve. * @param objectName - Name of the object being serialized. */ function resolveAdditionalProperties(serializer, mapper, objectName) { const additionalProperties = mapper.type.additionalProperties; if (!additionalProperties && mapper.type.className) { const modelMapper = resolveReferencedMapper(serializer, mapper, objectName); return modelMapper === null || modelMapper === void 0 ? void 0 : modelMapper.type.additionalProperties; } return additionalProperties; } /** * Finds the mapper referenced by `className`. * @param serializer - The serializer containing the entire set of mappers * @param mapper - The composite mapper to resolve * @param objectName - Name of the object being serialized */ function resolveReferencedMapper(serializer, mapper, objectName) { const className = mapper.type.className; if (!className) { throw new Error(`Class name for model "${objectName}" is not provided in the mapper "${JSON.stringify(mapper, undefined, 2)}".`); } return serializer.modelMappers[className]; } /** * Resolves a composite mapper's modelProperties. * @param serializer - The serializer containing the entire set of mappers * @param mapper - The composite mapper to resolve */ function resolveModelProperties(serializer, mapper, objectName) { let modelProps = mapper.type.modelProperties; if (!modelProps) { const modelMapper = resolveReferencedMapper(serializer, mapper, objectName); if (!modelMapper) { throw new Error(`mapper() cannot be null or undefined for model "${mapper.type.className}".`); } modelProps = modelMapper === null || modelMapper === void 0 ? void 0 : modelMapper.type.modelProperties; if (!modelProps) { throw new Error(`modelProperties cannot be null or undefined in the ` + `mapper "${JSON.stringify(modelMapper)}" of type "${mapper.type.className}" for object "${objectName}".`); } } return modelProps; } function serializeCompositeType(serializer, mapper, object, objectName, isXml, options) { if (getPolymorphicDiscriminatorRecursively(serializer, mapper)) { mapper = getPolymorphicMapper(serializer, mapper, object, "clientName"); } if (object != undefined) { const payload = {}; const modelProps = resolveModelProperties(serializer, mapper, objectName); for (const key of Object.keys(modelProps)) { const propertyMapper = modelProps[key]; if (propertyMapper.readOnly) { continue; } let propName; let parentObject = payload; if (serializer.isXML) { if (propertyMapper.xmlIsWrapped) { propName = propertyMapper.xmlName; } else { propName = propertyMapper.xmlElementName || propertyMapper.xmlName; } } else { const paths = splitSerializeName(propertyMapper.serializedName); propName = paths.pop(); for (const pathName of paths) { const childObject = parentObject[pathName]; if (childObject == undefined && (object[key] != undefined || propertyMapper.defaultValue !== undefined)) { parentObject[pathName] = {}; } parentObject = parentObject[pathName]; } } if (parentObject != undefined) { if (isXml && mapper.xmlNamespace) { const xmlnsKey = mapper.xmlNamespacePrefix ? `xmlns:${mapper.xmlNamespacePrefix}` : "xmlns"; parentObject[XML_ATTRKEY] = Object.assign(Object.assign({}, parentObject[XML_ATTRKEY]), { [xmlnsKey]: mapper.xmlNamespace }); } const propertyObjectName = propertyMapper.serializedName !== "" ? objectName + "." + propertyMapper.serializedName : objectName; let toSerialize = object[key]; const polymorphicDiscriminator = getPolymorphicDiscriminatorRecursively(serializer, mapper); if (polymorphicDiscriminator && polymorphicDiscriminator.clientName === key && toSerialize == undefined) { toSerialize = mapper.serializedName; } const serializedValue = serializer.serialize(propertyMapper, toSerialize, propertyObjectName, options); if (serializedValue !== undefined && propName != undefined) { const value = getXmlObjectValue(propertyMapper, serializedValue, isXml, options); if (isXml && propertyMapper.xmlIsAttribute) { // XML_ATTRKEY, i.e., $ is the key attributes are kept under in xml2js. // This keeps things simple while preventing name collision // with names in user documents. parentObject[XML_ATTRKEY] = parentObject[XML_ATTRKEY] || {}; parentObject[XML_ATTRKEY][propName] = serializedValue; } else if (isXml && propertyMapper.xmlIsWrapped) { parentObject[propName] = { [propertyMapper.xmlElementName]: value }; } else { parentObject[propName] = value; } } } } const additionalPropertiesMapper = resolveAdditionalProperties(serializer, mapper, objectName); if (additionalPropertiesMapper) { const propNames = Object.keys(modelProps); for (const clientPropName in object) { const isAdditionalProperty = propNames.every((pn) => pn !== clientPropName); if (isAdditionalProperty) { payload[clientPropName] = serializer.serialize(additionalPropertiesMapper, object[clientPropName], objectName + '["' + clientPropName + '"]', options); } } } return payload; } return object; } function getXmlObjectValue(propertyMapper, serializedValue, isXml, options) { if (!isXml || !propertyMapper.xmlNamespace) { return serializedValue; } const xmlnsKey = propertyMapper.xmlNamespacePrefix ? `xmlns:${propertyMapper.xmlNamespacePrefix}` : "xmlns"; const xmlNamespace = { [xmlnsKey]: propertyMapper.xmlNamespace }; if (["Composite"].includes(propertyMapper.type.name)) { if (serializedValue[XML_ATTRKEY]) { return serializedValue; } else { const result = Object.assign({}, serializedValue); result[XML_ATTRKEY] = xmlNamespace; return result; } } const result = {}; result[options.xmlCharKey] = serializedValue; result[XML_ATTRKEY] = xmlNamespace; return result; } function isSpecialXmlProperty(propertyName, options) { return [XML_ATTRKEY, options.xmlCharKey].includes(propertyName); } function deserializeCompositeType(serializer, mapper, responseBody, objectName, options) { var _a, _b; const xmlCharKey = (_a = options.xmlCharKey) !== null && _a !== void 0 ? _a : XML_CHARKEY; if (getPolymorphicDiscriminatorRecursively(serializer, mapper)) { mapper = getPolymorphicMapper(serializer, mapper, responseBody, "serializedName"); } const modelProps = resolveModelProperties(serializer, mapper, objectName); let instance = {}; const handledPropertyNames = []; for (const key of Object.keys(modelProps)) { const propertyMapper = modelProps[key]; const paths = splitSerializeName(modelProps[key].serializedName); handledPropertyNames.push(paths[0]); const { serializedName, xmlName, xmlElementName } = propertyMapper; let propertyObjectName = objectName; if (serializedName !== "" && serializedName !== undefined) { propertyObjectName = objectName + "." + serializedName; } const headerCollectionPrefix = propertyMapper.headerCollectionPrefix; if (headerCollectionPrefix) { const dictionary = {}; for (const headerKey of Object.keys(responseBody)) { if (headerKey.startsWith(headerCollectionPrefix)) { dictionary[headerKey.substring(headerCollectionPrefix.length)] = serializer.deserialize(propertyMapper.type.value, responseBody[headerKey], propertyObjectName, options); } handledPropertyNames.push(headerKey); } instance[key] = dictionary; } else if (serializer.isXML) { if (propertyMapper.xmlIsAttribute && responseBody[XML_ATTRKEY]) { instance[key] = serializer.deserialize(propertyMapper, responseBody[XML_ATTRKEY][xmlName], propertyObjectName, options); } else if (propertyMapper.xmlIsMsText) { if (responseBody[xmlCharKey] !== undefined) { instance[key] = responseBody[xmlCharKey]; } else if (typeof responseBody === "string") { // The special case where xml parser parses "content" into JSON of // `{ name: "content"}` instead of `{ name: { "_": "content" }}` instance[key] = responseBody; } } else { const propertyName = xmlElementName || xmlName || serializedName; if (propertyMapper.xmlIsWrapped) { /* a list of wrapped by For the xml example below ... ... the responseBody has { Cors: { CorsRule: [{...}, {...}] } } xmlName is "Cors" and xmlElementName is"CorsRule". */ const wrapped = responseBody[xmlName]; const elementList = (_b = wrapped === null || wrapped === void 0 ? void 0 : wrapped[xmlElementName]) !== null && _b !== void 0 ? _b : []; instance[key] = serializer.deserialize(propertyMapper, elementList, propertyObjectName, options); handledPropertyNames.push(xmlName); } else { const property = responseBody[propertyName]; instance[key] = serializer.deserialize(propertyMapper, property, propertyObjectName, options); handledPropertyNames.push(propertyName); } } } else { // deserialize the property if it is present in the provided responseBody instance let propertyInstance; let res = responseBody; // traversing the object step by step. for (const item of paths) { if (!res) break; res = res[item]; } propertyInstance = res; const polymorphicDiscriminator = mapper.type.polymorphicDiscriminator; // checking that the model property name (key)(ex: "fishtype") and the // clientName of the polymorphicDiscriminator {metadata} (ex: "fishtype") // instead of the serializedName of the polymorphicDiscriminator (ex: "fish.type") // is a better approach. The generator is not consistent with escaping '\.' in the // serializedName of the property (ex: "fish\.type") that is marked as polymorphic discriminator // and the serializedName of the metadata polymorphicDiscriminator (ex: "fish.type"). However, // the clientName transformation of the polymorphicDiscriminator (ex: "fishtype") and // the transformation of model property name (ex: "fishtype") is done consistently. // Hence, it is a safer bet to rely on the clientName of the polymorphicDiscriminator. if (polymorphicDiscriminator && key === polymorphicDiscriminator.clientName && propertyInstance == undefined) { propertyInstance = mapper.serializedName; } let serializedValue; // paging if (Array.isArray(responseBody[key]) && modelProps[key].serializedName === "") { propertyInstance = responseBody[key]; const arrayInstance = serializer.deserialize(propertyMapper, propertyInstance, propertyObjectName, options); // Copy over any properties that have already been added into the instance, where they do // not exist on the newly de-serialized array for (const [k, v] of Object.entries(instance)) { if (!Object.prototype.hasOwnProperty.call(arrayInstance, k)) { arrayInstance[k] = v; } } instance = arrayInstance; } else if (propertyInstance !== undefined || propertyMapper.defaultValue !== undefined) { serializedValue = serializer.deserialize(propertyMapper, propertyInstance, propertyObjectName, options); instance[key] = serializedValue; } } } const additionalPropertiesMapper = mapper.type.additionalProperties; if (additionalPropertiesMapper) { const isAdditionalProperty = (responsePropName) => { for (const clientPropName in modelProps) { const paths = splitSerializeName(modelProps[clientPropName].serializedName); if (paths[0] === responsePropName) { return false; } } return true; }; for (const responsePropName in responseBody) { if (isAdditionalProperty(responsePropName)) { instance[responsePropName] = serializer.deserialize(additionalPropertiesMapper, responseBody[responsePropName], objectName + '["' + responsePropName + '"]', options); } } } else if (responseBody) { for (const key of Object.keys(responseBody)) { if (instance[key] === undefined && !handledPropertyNames.includes(key) && !isSpecialXmlProperty(key, options)) { instance[key] = responseBody[key]; } } } return instance; } function deserializeDictionaryType(serializer, mapper, responseBody, objectName, options) { const value = mapper.type.value; if (!value || typeof value !== "object") { throw new Error(`"value" metadata for a Dictionary must be defined in the ` + `mapper and it must of type "object" in ${objectName}`); } if (responseBody) { const tempDictionary = {}; for (const key of Object.keys(responseBody)) { tempDictionary[key] = serializer.deserialize(value, responseBody[key], objectName, options); } return tempDictionary; } return responseBody; } function deserializeSequenceType(serializer, mapper, responseBody, objectName, options) { const element = mapper.type.element; if (!element || typeof element !== "object") { throw new Error(`element" metadata for an Array must be defined in the ` + `mapper and it must of type "object" in ${objectName}`); } if (responseBody) { if (!Array.isArray(responseBody)) { // xml2js will interpret a single element array as just the element, so force it to be an array responseBody = [responseBody]; } const tempArray = []; for (let i = 0; i < responseBody.length; i++) { tempArray[i] = serializer.deserialize(element, responseBody[i], `${objectName}[${i}]`, options); } return tempArray; } return responseBody; } function getPolymorphicMapper(serializer, mapper, object, polymorphicPropertyName) { const polymorphicDiscriminator = getPolymorphicDiscriminatorRecursively(serializer, mapper); if (polymorphicDiscriminator) { const discriminatorName = polymorphicDiscriminator[polymorphicPropertyName]; if (discriminatorName != undefined) { const discriminatorValue = object[discriminatorName]; if (discriminatorValue != undefined) { const typeName = mapper.type.uberParent || mapper.type.className; const indexDiscriminator = discriminatorValue === typeName ? discriminatorValue : typeName + "." + discriminatorValue; const polymorphicMapper = serializer.modelMappers.discriminators[indexDiscriminator]; if (polymorphicMapper) { mapper = polymorphicMapper; } } } } return mapper; } function getPolymorphicDiscriminatorRecursively(serializer, mapper) { return (mapper.type.polymorphicDiscriminator || getPolymorphicDiscriminatorSafely(serializer, mapper.type.uberParent) || getPolymorphicDiscriminatorSafely(serializer, mapper.type.className)); } function getPolymorphicDiscriminatorSafely(serializer, typeName) { return (typeName && serializer.modelMappers[typeName] && serializer.modelMappers[typeName].type.polymorphicDiscriminator); } /** * Utility function that serializes an object that might contain binary information into a plain object, array or a string. */ function serializeObject(toSerialize) { const castToSerialize = toSerialize; if (toSerialize == undefined) return undefined; if (toSerialize instanceof Uint8Array) { toSerialize = encodeByteArray(toSerialize); return toSerialize; } else if (toSerialize instanceof Date) { return toSerialize.toISOString(); } else if (Array.isArray(toSerialize)) { const array = []; for (let i = 0; i < toSerialize.length; i++) { array.push(serializeObject(toSerialize[i])); } return array; } else if (typeof toSerialize === "object") { const dictionary = {}; for (const property in toSerialize) { dictionary[property] = serializeObject(castToSerialize[property]); } return dictionary; } return toSerialize; } /** * Utility function to create a K:V from a list of strings */ function strEnum(o) { const result = {}; for (const key of o) { result[key] = key; } return result; } /** * String enum containing the string types of property mappers. */ // eslint-disable-next-line @typescript-eslint/no-redeclare const MapperType = strEnum([ "Base64Url", "Boolean", "ByteArray", "Composite", "Date", "DateTime", "DateTimeRfc1123", "Dictionary", "Enum", "Number", "Object", "Sequence", "String", "Stream", "TimeSpan", "UnixTime", ]); // Copyright (c) Microsoft Corporation. function isWebResourceLike(object) { if (object && typeof object === "object") { const castObject = object; if (typeof castObject.url === "string" && typeof castObject.method === "string" && typeof castObject.headers === "object" && isHttpHeadersLike(castObject.headers) && typeof castObject.validateRequestProperties === "function" && typeof castObject.prepare === "function" && typeof castObject.clone === "function") { return true; } } return false; } /** * Creates a new WebResource object. * * This class provides an abstraction over a REST call by being library / implementation agnostic and wrapping the necessary * properties to initiate a request. */ class WebResource { constructor(url, method, body, query, headers, streamResponseBody, withCredentials, abortSignal, timeout, onUploadProgress, onDownloadProgress, proxySettings, keepAlive, decompressResponse, streamResponseStatusCodes) { this.streamResponseBody = streamResponseBody; this.streamResponseStatusCodes = streamResponseStatusCodes; this.url = url || ""; this.method = method || "GET"; this.headers = isHttpHeadersLike(headers) ? headers : new HttpHeaders(headers); this.body = body; this.query = query; this.formData = undefined; this.withCredentials = withCredentials || false; this.abortSignal = abortSignal; this.timeout = timeout || 0; this.onUploadProgress = onUploadProgress; this.onDownloadProgress = onDownloadProgress; this.proxySettings = proxySettings; this.keepAlive = keepAlive; this.decompressResponse = decompressResponse; this.requestId = this.headers.get("x-ms-client-request-id") || generateUuid(); } /** * Validates that the required properties such as method, url, headers["Content-Type"], * headers["accept-language"] are defined. It will throw an error if one of the above * mentioned properties are not defined. */ validateRequestProperties() { if (!this.method) { throw new Error("WebResource.method is required."); } if (!this.url) { throw new Error("WebResource.url is required."); } } /** * Prepares the request. * @param options - Options to provide for preparing the request. * @returns Returns the prepared WebResource (HTTP Request) object that needs to be given to the request pipeline. */ prepare(options) { if (!options) { throw new Error("options object is required"); } if (options.method === undefined || options.method === null || typeof options.method.valueOf() !== "string") { throw new Error("options.method must be a string."); } if (options.url && options.pathTemplate) { throw new Error("options.url and options.pathTemplate are mutually exclusive. Please provide exactly one of them."); } if ((options.pathTemplate === undefined || options.pathTemplate === null || typeof options.pathTemplate.valueOf() !== "string") && (options.url === undefined || options.url === null || typeof options.url.valueOf() !== "string")) { throw new Error("Please provide exactly one of options.pathTemplate or options.url."); } // set the url if it is provided. if (options.url) { if (typeof options.url !== "string") { throw new Error('options.url must be of type "string".'); } this.url = options.url; } // set the method if (options.method) { const validMethods = ["GET", "PUT", "HEAD", "DELETE", "OPTIONS", "POST", "PATCH", "TRACE"]; if (validMethods.indexOf(options.method.toUpperCase()) === -1) { throw new Error('The provided method "' + options.method + '" is invalid. Supported HTTP methods are: ' + JSON.stringify(validMethods)); } } this.method = options.method.toUpperCase(); // construct the url if path template is provided if (options.pathTemplate) { const { pathTemplate, pathParameters } = options; if (typeof pathTemplate !== "string") { throw new Error('options.pathTemplate must be of type "string".'); } if (!options.baseUrl) { options.baseUrl = "https://management.azure.com"; } const baseUrl = options.baseUrl; let url = baseUrl + (baseUrl.endsWith("/") ? "" : "/") + (pathTemplate.startsWith("/") ? pathTemplate.slice(1) : pathTemplate); const segments = url.match(/({[\w-]*\s*[\w-]*})/gi); if (segments && segments.length) { if (!pathParameters) { throw new Error(`pathTemplate: ${pathTemplate} has been provided. Hence, options.pathParameters must also be provided.`); } segments.forEach(function (item) { const pathParamName = item.slice(1, -1); const pathParam = pathParameters[pathParamName]; if (pathParam === null || pathParam === undefined || !(typeof pathParam === "string" || typeof pathParam === "object")) { const stringifiedPathParameters = JSON.stringify(pathParameters, undefined, 2); throw new Error(`pathTemplate: ${pathTemplate} contains the path parameter ${pathParamName}` + ` however, it is not present in parameters: ${stringifiedPathParameters}.` + `The value of the path parameter can either be a "string" of the form { ${pathParamName}: "some sample value" } or ` + `it can be an "object" of the form { "${pathParamName}": { value: "some sample value", skipUrlEncoding: true } }.`); } if (typeof pathParam.valueOf() === "string") { url = url.replace(item, encodeURIComponent(pathParam)); } if (typeof pathParam.valueOf() === "object") { if (!pathParam.value) { throw new Error(`options.pathParameters[${pathParamName}] is of type "object" but it does not contain a "value" property.`); } if (pathParam.skipUrlEncoding) { url = url.replace(item, pathParam.value); } else { url = url.replace(item, encodeURIComponent(pathParam.value)); } } }); } this.url = url; } // append query parameters to the url if they are provided. They can be provided with pathTemplate or url option. if (options.queryParameters) { const queryParameters = options.queryParameters; if (typeof queryParameters !== "object") { throw new Error(`options.queryParameters must be of type object. It should be a JSON object ` + `of "query-parameter-name" as the key and the "query-parameter-value" as the value. ` + `The "query-parameter-value" may be fo type "string" or an "object" of the form { value: "query-parameter-value", skipUrlEncoding: true }.`); } // append question mark if it is not present in the url if (this.url && this.url.indexOf("?") === -1) { this.url += "?"; } // construct queryString const queryParams = []; // We need to populate this.query as a dictionary if the request is being used for Sway's validateRequest(). this.query = {}; for (const queryParamName in queryParameters) { const queryParam = queryParameters[queryParamName]; if (queryParam) { if (typeof queryParam === "string") { queryParams.push(queryParamName + "=" + encodeURIComponent(queryParam)); this.query[queryParamName] = encodeURIComponent(queryParam); } else if (typeof queryParam === "object") { if (!queryParam.value) { throw new Error(`options.queryParameters[${queryParamName}] is of type "object" but it does not contain a "value" property.`); } if (queryParam.skipUrlEncoding) { queryParams.push(queryParamName + "=" + queryParam.value); this.query[queryParamName] = queryParam.value; } else { queryParams.push(queryParamName + "=" + encodeURIComponent(queryParam.value)); this.query[queryParamName] = encodeURIComponent(queryParam.value); } } } } // end-of-for // append the queryString this.url += queryParams.join("&"); } // add headers to the request if they are provided if (options.headers) { const headers = options.headers; for (const headerName of Object.keys(options.headers)) { this.headers.set(headerName, headers[headerName]); } } // ensure accept-language is set correctly if (!this.headers.get("accept-language")) { this.headers.set("accept-language", "en-US"); } // ensure the request-id is set correctly if (!this.headers.get("x-ms-client-request-id") && !options.disableClientRequestId) { this.headers.set("x-ms-client-request-id", this.requestId); } // default if (!this.headers.get("Content-Type")) { this.headers.set("Content-Type", "application/json; charset=utf-8"); } // set the request body. request.js automatically sets the Content-Length request header, so we need not set it explicitly this.body = options.body; if (options.body !== undefined && options.body !== null) { // body as a stream special case. set the body as-is and check for some special request headers specific to sending a stream. if (options.bodyIsStream) { if (!this.headers.get("Transfer-Encoding")) { this.headers.set("Transfer-Encoding", "chunked"); } if (this.headers.get("Content-Type") !== "application/octet-stream") { this.headers.set("Content-Type", "application/octet-stream"); } } else { if (options.serializationMapper) { this.body = new Serializer(options.mappers).serialize(options.serializationMapper, options.body, "requestBody"); } if (!options.disableJsonStringifyOnBody) { this.body = JSON.stringify(options.body); } } } if (options.spanOptions) { this.spanOptions = options.spanOptions; } if (options.tracingContext) { this.tracingContext = options.tracingContext; } this.abortSignal = options.abortSignal; this.onDownloadProgress = options.onDownloadProgress; this.onUploadProgress = options.onUploadProgress; return this; } /** * Clone this WebResource HTTP request object. * @returns The clone of this WebResource HTTP request object. */ clone() { const result = new WebResource(this.url, this.method, this.body, this.query, this.headers && this.headers.clone(), this.streamResponseBody, this.withCredentials, this.abortSignal, this.timeout, this.onUploadProgress, this.onDownloadProgress, this.proxySettings, this.keepAlive, this.decompressResponse, this.streamResponseStatusCodes); if (this.formData) { result.formData = this.formData; } if (this.operationSpec) { result.operationSpec = this.operationSpec; } if (this.shouldDeserialize) { result.shouldDeserialize = this.shouldDeserialize; } if (this.operationResponseGetter) { result.operationResponseGetter = this.operationResponseGetter; } return result; } } // Copyright (c) Microsoft Corporation. /** * A class that handles the query portion of a URLBuilder. */ class URLQuery { constructor() { this._rawQuery = {}; } /** * Get whether or not there any query parameters in this URLQuery. */ any() { return Object.keys(this._rawQuery).length > 0; } /** * Get the keys of the query string. */ keys() { return Object.keys(this._rawQuery); } /** * Set a query parameter with the provided name and value. If the parameterValue is undefined or * empty, then this will attempt to remove an existing query parameter with the provided * parameterName. */ set(parameterName, parameterValue) { const caseParameterValue = parameterValue; if (parameterName) { if (caseParameterValue !== undefined && caseParameterValue !== null) { const newValue = Array.isArray(caseParameterValue) ? caseParameterValue : caseParameterValue.toString(); this._rawQuery[parameterName] = newValue; } else { delete this._rawQuery[parameterName]; } } } /** * Get the value of the query parameter with the provided name. If no parameter exists with the * provided parameter name, then undefined will be returned. */ get(parameterName) { return parameterName ? this._rawQuery[parameterName] : undefined; } /** * Get the string representation of this query. The return value will not start with a "?". */ toString() { let result = ""; for (const parameterName in this._rawQuery) { if (result) { result += "&"; } const parameterValue = this._rawQuery[parameterName]; if (Array.isArray(parameterValue)) { const parameterStrings = []; for (const parameterValueElement of parameterValue) { parameterStrings.push(`${parameterName}=${parameterValueElement}`); } result += parameterStrings.join("&"); } else { result += `${parameterName}=${parameterValue}`; } } return result; } /** * Parse a URLQuery from the provided text. */ static parse(text) { const result = new URLQuery(); if (text) { if (text.startsWith("?")) { text = text.substring(1); } let currentState = "ParameterName"; let parameterName = ""; let parameterValue = ""; for (let i = 0; i < text.length; ++i) { const currentCharacter = text[i]; switch (currentState) { case "ParameterName": switch (currentCharacter) { case "=": currentState = "ParameterValue"; break; case "&": parameterName = ""; parameterValue = ""; break; default: parameterName += currentCharacter; break; } break; case "ParameterValue": switch (currentCharacter) { case "&": result.set(parameterName, parameterValue); parameterName = ""; parameterValue = ""; currentState = "ParameterName"; break; default: parameterValue += currentCharacter; break; } break; default: throw new Error("Unrecognized URLQuery parse state: " + currentState); } } if (currentState === "ParameterValue") { result.set(parameterName, parameterValue); } } return result; } } /** * A class that handles creating, modifying, and parsing URLs. */ class URLBuilder { /** * Set the scheme/protocol for this URL. If the provided scheme contains other parts of a URL * (such as a host, port, path, or query), those parts will be added to this URL as well. */ setScheme(scheme) { if (!scheme) { this._scheme = undefined; } else { this.set(scheme, "SCHEME"); } } /** * Get the scheme that has been set in this URL. */ getScheme() { return this._scheme; } /** * Set the host for this URL. If the provided host contains other parts of a URL (such as a * port, path, or query), those parts will be added to this URL as well. */ setHost(host) { if (!host) { this._host = undefined; } else { this.set(host, "SCHEME_OR_HOST"); } } /** * Get the host that has been set in this URL. */ getHost() { return this._host; } /** * Set the port for this URL. If the provided port contains other parts of a URL (such as a * path or query), those parts will be added to this URL as well. */ setPort(port) { if (port === undefined || port === null || port === "") { this._port = undefined; } else { this.set(port.toString(), "PORT"); } } /** * Get the port that has been set in this URL. */ getPort() { return this._port; } /** * Set the path for this URL. If the provided path contains a query, then it will be added to * this URL as well. */ setPath(path) { if (!path) { this._path = undefined; } else { const schemeIndex = path.indexOf("://"); if (schemeIndex !== -1) { const schemeStart = path.lastIndexOf("/", schemeIndex); // Make sure to only grab the URL part of the path before setting the state back to SCHEME // this will handle cases such as "/a/b/c/https://microsoft.com" => "https://microsoft.com" this.set(schemeStart === -1 ? path : path.substr(schemeStart + 1), "SCHEME"); } else { this.set(path, "PATH"); } } } /** * Append the provided path to this URL's existing path. If the provided path contains a query, * then it will be added to this URL as well. */ appendPath(path) { if (path) { let currentPath = this.getPath(); if (currentPath) { if (!currentPath.endsWith("/")) { currentPath += "/"; } if (path.startsWith("/")) { path = path.substring(1); } path = currentPath + path; } this.set(path, "PATH"); } } /** * Get the path that has been set in this URL. */ getPath() { return this._path; } /** * Set the query in this URL. */ setQuery(query) { if (!query) { this._query = undefined; } else { this._query = URLQuery.parse(query); } } /** * Set a query parameter with the provided name and value in this URL's query. If the provided * query parameter value is undefined or empty, then the query parameter will be removed if it * existed. */ setQueryParameter(queryParameterName, queryParameterValue) { if (queryParameterName) { if (!this._query) { this._query = new URLQuery(); } this._query.set(queryParameterName, queryParameterValue); } } /** * Get the value of the query parameter with the provided query parameter name. If no query * parameter exists with the provided name, then undefined will be returned. */ getQueryParameterValue(queryParameterName) { return this._query ? this._query.get(queryParameterName) : undefined; } /** * Get the query in this URL. */ getQuery() { return this._query ? this._query.toString() : undefined; } /** * Set the parts of this URL by parsing the provided text using the provided startState. */ set(text, startState) { const tokenizer = new URLTokenizer(text, startState); while (tokenizer.next()) { const token = tokenizer.current(); let tokenPath; if (token) { switch (token.type) { case "SCHEME": this._scheme = token.text || undefined; break; case "HOST": this._host = token.text || undefined; break; case "PORT": this._port = token.text || undefined; break; case "PATH": tokenPath = token.text || undefined; if (!this._path || this._path === "/" || tokenPath !== "/") { this._path = tokenPath; } break; case "QUERY": this._query = URLQuery.parse(token.text); break; default: throw new Error(`Unrecognized URLTokenType: ${token.type}`); } } } } /** * Serializes the URL as a string. * @returns the URL as a string. */ toString() { let result = ""; if (this._scheme) { result += `${this._scheme}://`; } if (this._host) { result += this._host; } if (this._port) { result += `:${this._port}`; } if (this._path) { if (!this._path.startsWith("/")) { result += "/"; } result += this._path; } if (this._query && this._query.any()) { result += `?${this._query.toString()}`; } return result; } /** * If the provided searchValue is found in this URLBuilder, then replace it with the provided * replaceValue. */ replaceAll(searchValue, replaceValue) { if (searchValue) { this.setScheme(replaceAll(this.getScheme(), searchValue, replaceValue)); this.setHost(replaceAll(this.getHost(), searchValue, replaceValue)); this.setPort(replaceAll(this.getPort(), searchValue, replaceValue)); this.setPath(replaceAll(this.getPath(), searchValue, replaceValue)); this.setQuery(replaceAll(this.getQuery(), searchValue, replaceValue)); } } /** * Parses a given string URL into a new {@link URLBuilder}. */ static parse(text) { const result = new URLBuilder(); result.set(text, "SCHEME_OR_HOST"); return result; } } class URLToken { constructor(text, type) { this.text = text; this.type = type; } static scheme(text) { return new URLToken(text, "SCHEME"); } static host(text) { return new URLToken(text, "HOST"); } static port(text) { return new URLToken(text, "PORT"); } static path(text) { return new URLToken(text, "PATH"); } static query(text) { return new URLToken(text, "QUERY"); } } /** * Get whether or not the provided character (single character string) is an alphanumeric (letter or * digit) character. */ function isAlphaNumericCharacter(character) { const characterCode = character.charCodeAt(0); return ((48 /* '0' */ <= characterCode && characterCode <= 57) /* '9' */ || (65 /* 'A' */ <= characterCode && characterCode <= 90) /* 'Z' */ || (97 /* 'a' */ <= characterCode && characterCode <= 122) /* 'z' */); } /** * A class that tokenizes URL strings. */ class URLTokenizer { constructor(_text, state) { this._text = _text; this._textLength = _text ? _text.length : 0; this._currentState = state !== undefined && state !== null ? state : "SCHEME_OR_HOST"; this._currentIndex = 0; } /** * Get the current URLToken this URLTokenizer is pointing at, or undefined if the URLTokenizer * hasn't started or has finished tokenizing. */ current() { return this._currentToken; } /** * Advance to the next URLToken and return whether or not a URLToken was found. */ next() { if (!hasCurrentCharacter(this)) { this._currentToken = undefined; } else { switch (this._currentState) { case "SCHEME": nextScheme(this); break; case "SCHEME_OR_HOST": nextSchemeOrHost(this); break; case "HOST": nextHost(this); break; case "PORT": nextPort(this); break; case "PATH": nextPath(this); break; case "QUERY": nextQuery(this); break; default: throw new Error(`Unrecognized URLTokenizerState: ${this._currentState}`); } } return !!this._currentToken; } } /** * Read the remaining characters from this Tokenizer's character stream. */ function readRemaining(tokenizer) { let result = ""; if (tokenizer._currentIndex < tokenizer._textLength) { result = tokenizer._text.substring(tokenizer._currentIndex); tokenizer._currentIndex = tokenizer._textLength; } return result; } /** * Whether or not this URLTokenizer has a current character. */ function hasCurrentCharacter(tokenizer) { return tokenizer._currentIndex < tokenizer._textLength; } /** * Get the character in the text string at the current index. */ function getCurrentCharacter(tokenizer) { return tokenizer._text[tokenizer._currentIndex]; } /** * Advance to the character in text that is "step" characters ahead. If no step value is provided, * then step will default to 1. */ function nextCharacter(tokenizer, step) { if (hasCurrentCharacter(tokenizer)) { if (!step) { step = 1; } tokenizer._currentIndex += step; } } /** * Starting with the current character, peek "charactersToPeek" number of characters ahead in this * Tokenizer's stream of characters. */ function peekCharacters(tokenizer, charactersToPeek) { let endIndex = tokenizer._currentIndex + charactersToPeek; if (tokenizer._textLength < endIndex) { endIndex = tokenizer._textLength; } return tokenizer._text.substring(tokenizer._currentIndex, endIndex); } /** * Read characters from this Tokenizer until the end of the stream or until the provided condition * is false when provided the current character. */ function readWhile(tokenizer, condition) { let result = ""; while (hasCurrentCharacter(tokenizer)) { const currentCharacter = getCurrentCharacter(tokenizer); if (!condition(currentCharacter)) { break; } else { result += currentCharacter; nextCharacter(tokenizer); } } return result; } /** * Read characters from this Tokenizer until a non-alphanumeric character or the end of the * character stream is reached. */ function readWhileLetterOrDigit(tokenizer) { return readWhile(tokenizer, (character) => isAlphaNumericCharacter(character)); } /** * Read characters from this Tokenizer until one of the provided terminating characters is read or * the end of the character stream is reached. */ function readUntilCharacter(tokenizer, ...terminatingCharacters) { return readWhile(tokenizer, (character) => terminatingCharacters.indexOf(character) === -1); } function nextScheme(tokenizer) { const scheme = readWhileLetterOrDigit(tokenizer); tokenizer._currentToken = URLToken.scheme(scheme); if (!hasCurrentCharacter(tokenizer)) { tokenizer._currentState = "DONE"; } else { tokenizer._currentState = "HOST"; } } function nextSchemeOrHost(tokenizer) { const schemeOrHost = readUntilCharacter(tokenizer, ":", "/", "?"); if (!hasCurrentCharacter(tokenizer)) { tokenizer._currentToken = URLToken.host(schemeOrHost); tokenizer._currentState = "DONE"; } else if (getCurrentCharacter(tokenizer) === ":") { if (peekCharacters(tokenizer, 3) === "://") { tokenizer._currentToken = URLToken.scheme(schemeOrHost); tokenizer._currentState = "HOST"; } else { tokenizer._currentToken = URLToken.host(schemeOrHost); tokenizer._currentState = "PORT"; } } else { tokenizer._currentToken = URLToken.host(schemeOrHost); if (getCurrentCharacter(tokenizer) === "/") { tokenizer._currentState = "PATH"; } else { tokenizer._currentState = "QUERY"; } } } function nextHost(tokenizer) { if (peekCharacters(tokenizer, 3) === "://") { nextCharacter(tokenizer, 3); } const host = readUntilCharacter(tokenizer, ":", "/", "?"); tokenizer._currentToken = URLToken.host(host); if (!hasCurrentCharacter(tokenizer)) { tokenizer._currentState = "DONE"; } else if (getCurrentCharacter(tokenizer) === ":") { tokenizer._currentState = "PORT"; } else if (getCurrentCharacter(tokenizer) === "/") { tokenizer._currentState = "PATH"; } else { tokenizer._currentState = "QUERY"; } } function nextPort(tokenizer) { if (getCurrentCharacter(tokenizer) === ":") { nextCharacter(tokenizer); } const port = readUntilCharacter(tokenizer, "/", "?"); tokenizer._currentToken = URLToken.port(port); if (!hasCurrentCharacter(tokenizer)) { tokenizer._currentState = "DONE"; } else if (getCurrentCharacter(tokenizer) === "/") { tokenizer._currentState = "PATH"; } else { tokenizer._currentState = "QUERY"; } } function nextPath(tokenizer) { const path = readUntilCharacter(tokenizer, "?"); tokenizer._currentToken = URLToken.path(path); if (!hasCurrentCharacter(tokenizer)) { tokenizer._currentState = "DONE"; } else { tokenizer._currentState = "QUERY"; } } function nextQuery(tokenizer) { if (getCurrentCharacter(tokenizer) === "?") { nextCharacter(tokenizer); } const query = readRemaining(tokenizer); tokenizer._currentToken = URLToken.query(query); tokenizer._currentState = "DONE"; } // Copyright (c) Microsoft Corporation. function createProxyAgent(requestUrl, proxySettings, headers) { const host = URLBuilder.parse(proxySettings.host).getHost(); if (!host) { throw new Error("Expecting a non-empty host in proxy settings."); } if (!isValidPort(proxySettings.port)) { throw new Error("Expecting a valid port number in the range of [0, 65535] in proxy settings."); } const tunnelOptions = { proxy: { host: host, port: proxySettings.port, headers: (headers && headers.rawHeaders()) || {}, }, }; if (proxySettings.username && proxySettings.password) { tunnelOptions.proxy.proxyAuth = `${proxySettings.username}:${proxySettings.password}`; } else if (proxySettings.username) { tunnelOptions.proxy.proxyAuth = `${proxySettings.username}`; } const isRequestHttps = isUrlHttps(requestUrl); const isProxyHttps = isUrlHttps(proxySettings.host); const proxyAgent = { isHttps: isRequestHttps, agent: createTunnel(isRequestHttps, isProxyHttps, tunnelOptions), }; return proxyAgent; } function isUrlHttps(url) { const urlScheme = URLBuilder.parse(url).getScheme() || ""; return urlScheme.toLowerCase() === "https"; } function createTunnel(isRequestHttps, isProxyHttps, tunnelOptions) { if (isRequestHttps && isProxyHttps) { return tunnel__namespace.httpsOverHttps(tunnelOptions); } else if (isRequestHttps && !isProxyHttps) { return tunnel__namespace.httpsOverHttp(tunnelOptions); } else if (!isRequestHttps && isProxyHttps) { return tunnel__namespace.httpOverHttps(tunnelOptions); } else { return tunnel__namespace.httpOverHttp(tunnelOptions); } } function isValidPort(port) { // any port in 0-65535 range is valid (RFC 793) even though almost all implementations // will reserve 0 for a specific purpose, and a range of numbers for ephemeral ports return 0 <= port && port <= 65535; } // Copyright (c) Microsoft Corporation. const RedactedString = "REDACTED"; const defaultAllowedHeaderNames = [ "x-ms-client-request-id", "x-ms-return-client-request-id", "x-ms-useragent", "x-ms-correlation-request-id", "x-ms-request-id", "client-request-id", "ms-cv", "return-client-request-id", "traceparent", "Access-Control-Allow-Credentials", "Access-Control-Allow-Headers", "Access-Control-Allow-Methods", "Access-Control-Allow-Origin", "Access-Control-Expose-Headers", "Access-Control-Max-Age", "Access-Control-Request-Headers", "Access-Control-Request-Method", "Origin", "Accept", "Accept-Encoding", "Cache-Control", "Connection", "Content-Length", "Content-Type", "Date", "ETag", "Expires", "If-Match", "If-Modified-Since", "If-None-Match", "If-Unmodified-Since", "Last-Modified", "Pragma", "Request-Id", "Retry-After", "Server", "Transfer-Encoding", "User-Agent", "WWW-Authenticate", ]; const defaultAllowedQueryParameters = ["api-version"]; class Sanitizer { constructor({ allowedHeaderNames = [], allowedQueryParameters = [] } = {}) { allowedHeaderNames = Array.isArray(allowedHeaderNames) ? defaultAllowedHeaderNames.concat(allowedHeaderNames) : defaultAllowedHeaderNames; allowedQueryParameters = Array.isArray(allowedQueryParameters) ? defaultAllowedQueryParameters.concat(allowedQueryParameters) : defaultAllowedQueryParameters; this.allowedHeaderNames = new Set(allowedHeaderNames.map((n) => n.toLowerCase())); this.allowedQueryParameters = new Set(allowedQueryParameters.map((p) => p.toLowerCase())); } sanitize(obj) { const seen = new Set(); return JSON.stringify(obj, (key, value) => { // Ensure Errors include their interesting non-enumerable members if (value instanceof Error) { return Object.assign(Object.assign({}, value), { name: value.name, message: value.message }); } if (key === "_headersMap") { return this.sanitizeHeaders(value); } else if (key === "url") { return this.sanitizeUrl(value); } else if (key === "query") { return this.sanitizeQuery(value); } else if (key === "body") { // Don't log the request body return undefined; } else if (key === "response") { // Don't log response again return undefined; } else if (key === "operationSpec") { // When using sendOperationRequest, the request carries a massive // field with the autorest spec. No need to log it. return undefined; } else if (Array.isArray(value) || isObject(value)) { if (seen.has(value)) { return "[Circular]"; } seen.add(value); } return value; }, 2); } sanitizeHeaders(value) { return this.sanitizeObject(value, this.allowedHeaderNames, (v, k) => v[k].value); } sanitizeQuery(value) { return this.sanitizeObject(value, this.allowedQueryParameters, (v, k) => v[k]); } sanitizeObject(value, allowedKeys, accessor) { if (typeof value !== "object" || value === null) { return value; } const sanitized = {}; for (const k of Object.keys(value)) { if (allowedKeys.has(k.toLowerCase())) { sanitized[k] = accessor(value, k); } else { sanitized[k] = RedactedString; } } return sanitized; } sanitizeUrl(value) { if (typeof value !== "string" || value === null) { return value; } const urlBuilder = URLBuilder.parse(value); const queryString = urlBuilder.getQuery(); if (!queryString) { return value; } const query = URLQuery.parse(queryString); for (const k of query.keys()) { if (!this.allowedQueryParameters.has(k.toLowerCase())) { query.set(k, RedactedString); } } urlBuilder.setQuery(query.toString()); return urlBuilder.toString(); } } // Copyright (c) Microsoft Corporation. const custom = util.inspect.custom; // Copyright (c) Microsoft Corporation. const errorSanitizer = new Sanitizer(); /** * An error resulting from an HTTP request to a service endpoint. */ class RestError extends Error { constructor(message, code, statusCode, request, response) { super(message); this.name = "RestError"; this.code = code; this.statusCode = statusCode; this.request = request; this.response = response; Object.setPrototypeOf(this, RestError.prototype); } /** * Logging method for util.inspect in Node */ [custom]() { return `RestError: ${this.message} \n ${errorSanitizer.sanitize(this)}`; } } /** * A constant string to identify errors that may arise when making an HTTP request that indicates an issue with the transport layer (e.g. the hostname of the URL cannot be resolved via DNS.) */ RestError.REQUEST_SEND_ERROR = "REQUEST_SEND_ERROR"; /** * A constant string to identify errors that may arise from parsing an incoming HTTP response. Usually indicates a malformed HTTP body, such as an encoded JSON payload that is incomplete. */ RestError.PARSE_ERROR = "PARSE_ERROR"; // Copyright (c) Microsoft Corporation. const logger = logger$1.createClientLogger("core-http"); // Copyright (c) Microsoft Corporation. function getCachedAgent(isHttps, agentCache) { return isHttps ? agentCache.httpsAgent : agentCache.httpAgent; } class ReportTransform extends stream.Transform { constructor(progressCallback) { super(); this.progressCallback = progressCallback; this.loadedBytes = 0; } _transform(chunk, _encoding, callback) { this.push(chunk); this.loadedBytes += chunk.length; this.progressCallback({ loadedBytes: this.loadedBytes }); callback(undefined); } } function isReadableStream(body) { return body && typeof body.pipe === "function"; } function isStreamComplete(stream, aborter) { return new Promise((resolve) => { stream.once("close", () => { aborter === null || aborter === void 0 ? void 0 : aborter.abort(); resolve(); }); stream.once("end", resolve); stream.once("error", resolve); }); } /** * Transforms a set of headers into the key/value pair defined by {@link HttpHeadersLike} */ function parseHeaders(headers) { const httpHeaders = new HttpHeaders(); headers.forEach((value, key) => { httpHeaders.set(key, value); }); return httpHeaders; } /** * An HTTP client that uses `node-fetch`. */ class NodeFetchHttpClient { constructor() { // a mapping of proxy settings string `${host}:${port}:${username}:${password}` to agent this.proxyAgentMap = new Map(); this.keepAliveAgents = {}; } /** * Provides minimum viable error handling and the logic that executes the abstract methods. * @param httpRequest - Object representing the outgoing HTTP request. * @returns An object representing the incoming HTTP response. */ async sendRequest(httpRequest) { var _a; if (!httpRequest && typeof httpRequest !== "object") { throw new Error("'httpRequest' (WebResourceLike) cannot be null or undefined and must be of type object."); } const abortController$1 = new abortController.AbortController(); let abortListener; if (httpRequest.abortSignal) { if (httpRequest.abortSignal.aborted) { throw new abortController.AbortError("The operation was aborted."); } abortListener = (event) => { if (event.type === "abort") { abortController$1.abort(); } }; httpRequest.abortSignal.addEventListener("abort", abortListener); } if (httpRequest.timeout) { setTimeout(() => { abortController$1.abort(); }, httpRequest.timeout); } if (httpRequest.formData) { const formData = httpRequest.formData; const requestForm = new FormData__default["default"](); const appendFormValue = (key, value) => { // value function probably returns a stream so we can provide a fresh stream on each retry if (typeof value === "function") { value = value(); } if (value && Object.prototype.hasOwnProperty.call(value, "value") && Object.prototype.hasOwnProperty.call(value, "options")) { requestForm.append(key, value.value, value.options); } else { requestForm.append(key, value); } }; for (const formKey of Object.keys(formData)) { const formValue = formData[formKey]; if (Array.isArray(formValue)) { for (let j = 0; j < formValue.length; j++) { appendFormValue(formKey, formValue[j]); } } else { appendFormValue(formKey, formValue); } } httpRequest.body = requestForm; httpRequest.formData = undefined; const contentType = httpRequest.headers.get("Content-Type"); if (contentType && contentType.indexOf("multipart/form-data") !== -1) { if (typeof requestForm.getBoundary === "function") { httpRequest.headers.set("Content-Type", `multipart/form-data; boundary=${requestForm.getBoundary()}`); } else { // browser will automatically apply a suitable content-type header httpRequest.headers.remove("Content-Type"); } } } let body = httpRequest.body ? typeof httpRequest.body === "function" ? httpRequest.body() : httpRequest.body : undefined; if (httpRequest.onUploadProgress && httpRequest.body) { const onUploadProgress = httpRequest.onUploadProgress; const uploadReportStream = new ReportTransform(onUploadProgress); if (isReadableStream(body)) { body.pipe(uploadReportStream); } else { uploadReportStream.end(body); } body = uploadReportStream; } const platformSpecificRequestInit = await this.prepareRequest(httpRequest); const requestInit = Object.assign({ body: body, headers: httpRequest.headers.rawHeaders(), method: httpRequest.method, // the types for RequestInit are from the browser, which expects AbortSignal to // have `reason` and `throwIfAborted`, but these don't exist on our polyfill // for Node. signal: abortController$1.signal, redirect: "manual" }, platformSpecificRequestInit); let operationResponse; try { const response = await this.fetch(httpRequest.url, requestInit); const headers = parseHeaders(response.headers); const streaming = ((_a = httpRequest.streamResponseStatusCodes) === null || _a === void 0 ? void 0 : _a.has(response.status)) || httpRequest.streamResponseBody; operationResponse = { headers: headers, request: httpRequest, status: response.status, readableStreamBody: streaming ? response.body : undefined, bodyAsText: !streaming ? await response.text() : undefined, }; const onDownloadProgress = httpRequest.onDownloadProgress; if (onDownloadProgress) { const responseBody = response.body || undefined; if (isReadableStream(responseBody)) { const downloadReportStream = new ReportTransform(onDownloadProgress); responseBody.pipe(downloadReportStream); operationResponse.readableStreamBody = downloadReportStream; } else { const length = parseInt(headers.get("Content-Length")) || undefined; if (length) { // Calling callback for non-stream response for consistency with browser onDownloadProgress({ loadedBytes: length }); } } } await this.processRequest(operationResponse); return operationResponse; } catch (error) { const fetchError = error; if (fetchError.code === "ENOTFOUND") { throw new RestError(fetchError.message, RestError.REQUEST_SEND_ERROR, undefined, httpRequest); } else if (fetchError.type === "aborted") { throw new abortController.AbortError("The operation was aborted."); } throw fetchError; } finally { // clean up event listener if (httpRequest.abortSignal && abortListener) { let uploadStreamDone = Promise.resolve(); if (isReadableStream(body)) { uploadStreamDone = isStreamComplete(body); } let downloadStreamDone = Promise.resolve(); if (isReadableStream(operationResponse === null || operationResponse === void 0 ? void 0 : operationResponse.readableStreamBody)) { downloadStreamDone = isStreamComplete(operationResponse.readableStreamBody, abortController$1); } Promise.all([uploadStreamDone, downloadStreamDone]) .then(() => { var _a; (_a = httpRequest.abortSignal) === null || _a === void 0 ? void 0 : _a.removeEventListener("abort", abortListener); return; }) .catch((e) => { logger.warning("Error when cleaning up abortListener on httpRequest", e); }); } } } getOrCreateAgent(httpRequest) { var _a; const isHttps = isUrlHttps(httpRequest.url); // At the moment, proxy settings and keepAlive are mutually // exclusive because the 'tunnel' library currently lacks the // ability to create a proxy with keepAlive turned on. if (httpRequest.proxySettings) { const { host, port, username, password } = httpRequest.proxySettings; const key = `${host}:${port}:${username}:${password}`; const proxyAgents = (_a = this.proxyAgentMap.get(key)) !== null && _a !== void 0 ? _a : {}; let agent = getCachedAgent(isHttps, proxyAgents); if (agent) { return agent; } const tunnel = createProxyAgent(httpRequest.url, httpRequest.proxySettings, httpRequest.headers); agent = tunnel.agent; if (tunnel.isHttps) { proxyAgents.httpsAgent = tunnel.agent; } else { proxyAgents.httpAgent = tunnel.agent; } this.proxyAgentMap.set(key, proxyAgents); return agent; } else if (httpRequest.keepAlive) { let agent = getCachedAgent(isHttps, this.keepAliveAgents); if (agent) { return agent; } const agentOptions = { keepAlive: httpRequest.keepAlive, }; if (isHttps) { agent = this.keepAliveAgents.httpsAgent = new https__namespace.Agent(agentOptions); } else { agent = this.keepAliveAgents.httpAgent = new http__namespace.Agent(agentOptions); } return agent; } else { return isHttps ? https__namespace.globalAgent : http__namespace.globalAgent; } } /** * Uses `node-fetch` to perform the request. */ // eslint-disable-next-line @azure/azure-sdk/ts-apisurface-standardized-verbs async fetch(input, init) { return node_fetch__default["default"](input, init); } /** * Prepares a request based on the provided web resource. */ async prepareRequest(httpRequest) { const requestInit = {}; // Set the http(s) agent requestInit.agent = this.getOrCreateAgent(httpRequest); requestInit.compress = httpRequest.decompressResponse; return requestInit; } /** * Process an HTTP response. */ async processRequest(_operationResponse) { /* no_op */ } } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /** * The different levels of logs that can be used with the HttpPipelineLogger. */ exports.HttpPipelineLogLevel = void 0; (function (HttpPipelineLogLevel) { /** * A log level that indicates that no logs will be logged. */ HttpPipelineLogLevel[HttpPipelineLogLevel["OFF"] = 0] = "OFF"; /** * An error log. */ HttpPipelineLogLevel[HttpPipelineLogLevel["ERROR"] = 1] = "ERROR"; /** * A warning log. */ HttpPipelineLogLevel[HttpPipelineLogLevel["WARNING"] = 2] = "WARNING"; /** * An information log. */ HttpPipelineLogLevel[HttpPipelineLogLevel["INFO"] = 3] = "INFO"; })(exports.HttpPipelineLogLevel || (exports.HttpPipelineLogLevel = {})); // Copyright (c) Microsoft Corporation. /** * Converts an OperationOptions to a RequestOptionsBase * * @param opts - OperationOptions object to convert to RequestOptionsBase */ function operationOptionsToRequestOptionsBase(opts) { const { requestOptions, tracingOptions } = opts, additionalOptions = tslib.__rest(opts, ["requestOptions", "tracingOptions"]); let result = additionalOptions; if (requestOptions) { result = Object.assign(Object.assign({}, result), requestOptions); } if (tracingOptions) { result.tracingContext = tracingOptions.tracingContext; // By passing spanOptions if they exist at runtime, we're backwards compatible with @azure/core-tracing@preview.13 and earlier. result.spanOptions = tracingOptions === null || tracingOptions === void 0 ? void 0 : tracingOptions.spanOptions; } return result; } // Copyright (c) Microsoft Corporation. /** * The base class from which all request policies derive. */ class BaseRequestPolicy { /** * The main method to implement that manipulates a request/response. */ constructor( /** * The next policy in the pipeline. Each policy is responsible for executing the next one if the request is to continue through the pipeline. */ _nextPolicy, /** * The options that can be passed to a given request policy. */ _options) { this._nextPolicy = _nextPolicy; this._options = _options; } /** * Get whether or not a log with the provided log level should be logged. * @param logLevel - The log level of the log that will be logged. * @returns Whether or not a log with the provided log level should be logged. */ shouldLog(logLevel) { return this._options.shouldLog(logLevel); } /** * Attempt to log the provided message to the provided logger. If no logger was provided or if * the log level does not meat the logger's threshold, then nothing will be logged. * @param logLevel - The log level of this log. * @param message - The message of this log. */ log(logLevel, message) { this._options.log(logLevel, message); } } /** * Optional properties that can be used when creating a RequestPolicy. */ class RequestPolicyOptions { constructor(_logger) { this._logger = _logger; } /** * Get whether or not a log with the provided log level should be logged. * @param logLevel - The log level of the log that will be logged. * @returns Whether or not a log with the provided log level should be logged. */ shouldLog(logLevel) { return (!!this._logger && logLevel !== exports.HttpPipelineLogLevel.OFF && logLevel <= this._logger.minimumLogLevel); } /** * Attempt to log the provided message to the provided logger. If no logger was provided or if * the log level does not meet the logger's threshold, then nothing will be logged. * @param logLevel - The log level of this log. * @param message - The message of this log. */ log(logLevel, message) { if (this._logger && this.shouldLog(logLevel)) { this._logger.log(logLevel, message); } } } // Copyright (c) Microsoft Corporation. // Note: The reason we re-define all of the xml2js default settings (version 2.0) here is because the default settings object exposed // by the xm2js library is mutable. See https://github.com/Leonidas-from-XIV/node-xml2js/issues/536 // By creating a new copy of the settings each time we instantiate the parser, // we are safeguarding against the possibility of the default settings being mutated elsewhere unintentionally. const xml2jsDefaultOptionsV2 = { explicitCharkey: false, trim: false, normalize: false, normalizeTags: false, attrkey: XML_ATTRKEY, explicitArray: true, ignoreAttrs: false, mergeAttrs: false, explicitRoot: true, validator: undefined, xmlns: false, explicitChildren: false, preserveChildrenOrder: false, childkey: "$$", charsAsChildren: false, includeWhiteChars: false, async: false, strict: true, attrNameProcessors: undefined, attrValueProcessors: undefined, tagNameProcessors: undefined, valueProcessors: undefined, rootName: "root", xmldec: { version: "1.0", encoding: "UTF-8", standalone: true, }, doctype: undefined, renderOpts: { pretty: true, indent: " ", newline: "\n", }, headless: false, chunkSize: 10000, emptyTag: "", cdata: false, }; // The xml2js settings for general XML parsing operations. const xml2jsParserSettings = Object.assign({}, xml2jsDefaultOptionsV2); xml2jsParserSettings.explicitArray = false; // The xml2js settings for general XML building operations. const xml2jsBuilderSettings = Object.assign({}, xml2jsDefaultOptionsV2); xml2jsBuilderSettings.explicitArray = false; xml2jsBuilderSettings.renderOpts = { pretty: false, }; /** * Converts given JSON object to XML string * @param obj - JSON object to be converted into XML string * @param opts - Options that govern the parsing of given JSON object */ function stringifyXML(obj, opts = {}) { var _a; xml2jsBuilderSettings.rootName = opts.rootName; xml2jsBuilderSettings.charkey = (_a = opts.xmlCharKey) !== null && _a !== void 0 ? _a : XML_CHARKEY; const builder = new xml2js__namespace.Builder(xml2jsBuilderSettings); return builder.buildObject(obj); } /** * Converts given XML string into JSON * @param str - String containing the XML content to be parsed into JSON * @param opts - Options that govern the parsing of given xml string */ function parseXML(str, opts = {}) { var _a; xml2jsParserSettings.explicitRoot = !!opts.includeRoot; xml2jsParserSettings.charkey = (_a = opts.xmlCharKey) !== null && _a !== void 0 ? _a : XML_CHARKEY; const xmlParser = new xml2js__namespace.Parser(xml2jsParserSettings); return new Promise((resolve, reject) => { if (!str) { reject(new Error("Document is empty")); } else { xmlParser.parseString(str, (err, res) => { if (err) { reject(err); } else { resolve(res); } }); } }); } // Copyright (c) Microsoft Corporation. /** * Create a new serialization RequestPolicyCreator that will serialized HTTP request bodies as they * pass through the HTTP pipeline. */ function deserializationPolicy(deserializationContentTypes, parsingOptions) { return { create: (nextPolicy, options) => { return new DeserializationPolicy(nextPolicy, options, deserializationContentTypes, parsingOptions); }, }; } const defaultJsonContentTypes = ["application/json", "text/json"]; const defaultXmlContentTypes = ["application/xml", "application/atom+xml"]; const DefaultDeserializationOptions = { expectedContentTypes: { json: defaultJsonContentTypes, xml: defaultXmlContentTypes, }, }; /** * A RequestPolicy that will deserialize HTTP response bodies and headers as they pass through the * HTTP pipeline. */ class DeserializationPolicy extends BaseRequestPolicy { constructor(nextPolicy, requestPolicyOptions, deserializationContentTypes, parsingOptions = {}) { var _a; super(nextPolicy, requestPolicyOptions); this.jsonContentTypes = (deserializationContentTypes && deserializationContentTypes.json) || defaultJsonContentTypes; this.xmlContentTypes = (deserializationContentTypes && deserializationContentTypes.xml) || defaultXmlContentTypes; this.xmlCharKey = (_a = parsingOptions.xmlCharKey) !== null && _a !== void 0 ? _a : XML_CHARKEY; } async sendRequest(request) { return this._nextPolicy.sendRequest(request).then((response) => deserializeResponseBody(this.jsonContentTypes, this.xmlContentTypes, response, { xmlCharKey: this.xmlCharKey, })); } } function getOperationResponse(parsedResponse) { let result; const request = parsedResponse.request; const operationSpec = request.operationSpec; if (operationSpec) { const operationResponseGetter = request.operationResponseGetter; if (!operationResponseGetter) { result = operationSpec.responses[parsedResponse.status]; } else { result = operationResponseGetter(operationSpec, parsedResponse); } } return result; } function shouldDeserializeResponse(parsedResponse) { const shouldDeserialize = parsedResponse.request.shouldDeserialize; let result; if (shouldDeserialize === undefined) { result = true; } else if (typeof shouldDeserialize === "boolean") { result = shouldDeserialize; } else { result = shouldDeserialize(parsedResponse); } return result; } /** * Given a particular set of content types to parse as either JSON or XML, consumes the HTTP response to produce the result object defined by the request's {@link OperationSpec}. * @param jsonContentTypes - Response content types to parse the body as JSON. * @param xmlContentTypes - Response content types to parse the body as XML. * @param response - HTTP Response from the pipeline. * @param options - Options to the serializer, mostly for configuring the XML parser if needed. * @returns A parsed {@link HttpOperationResponse} object that can be returned by the {@link ServiceClient}. */ function deserializeResponseBody(jsonContentTypes, xmlContentTypes, response, options = {}) { var _a, _b, _c; const updatedOptions = { rootName: (_a = options.rootName) !== null && _a !== void 0 ? _a : "", includeRoot: (_b = options.includeRoot) !== null && _b !== void 0 ? _b : false, xmlCharKey: (_c = options.xmlCharKey) !== null && _c !== void 0 ? _c : XML_CHARKEY, }; return parse(jsonContentTypes, xmlContentTypes, response, updatedOptions).then((parsedResponse) => { if (!shouldDeserializeResponse(parsedResponse)) { return parsedResponse; } const operationSpec = parsedResponse.request.operationSpec; if (!operationSpec || !operationSpec.responses) { return parsedResponse; } const responseSpec = getOperationResponse(parsedResponse); const { error, shouldReturnResponse } = handleErrorResponse(parsedResponse, operationSpec, responseSpec); if (error) { throw error; } else if (shouldReturnResponse) { return parsedResponse; } // An operation response spec does exist for current status code, so // use it to deserialize the response. if (responseSpec) { if (responseSpec.bodyMapper) { let valueToDeserialize = parsedResponse.parsedBody; if (operationSpec.isXML && responseSpec.bodyMapper.type.name === MapperType.Sequence) { valueToDeserialize = typeof valueToDeserialize === "object" ? valueToDeserialize[responseSpec.bodyMapper.xmlElementName] : []; } try { parsedResponse.parsedBody = operationSpec.serializer.deserialize(responseSpec.bodyMapper, valueToDeserialize, "operationRes.parsedBody", options); } catch (innerError) { const restError = new RestError(`Error ${innerError} occurred in deserializing the responseBody - ${parsedResponse.bodyAsText}`, undefined, parsedResponse.status, parsedResponse.request, parsedResponse); throw restError; } } else if (operationSpec.httpMethod === "HEAD") { // head methods never have a body, but we return a boolean to indicate presence/absence of the resource parsedResponse.parsedBody = response.status >= 200 && response.status < 300; } if (responseSpec.headersMapper) { parsedResponse.parsedHeaders = operationSpec.serializer.deserialize(responseSpec.headersMapper, parsedResponse.headers.toJson(), "operationRes.parsedHeaders", options); } } return parsedResponse; }); } function isOperationSpecEmpty(operationSpec) { const expectedStatusCodes = Object.keys(operationSpec.responses); return (expectedStatusCodes.length === 0 || (expectedStatusCodes.length === 1 && expectedStatusCodes[0] === "default")); } function handleErrorResponse(parsedResponse, operationSpec, responseSpec) { var _a; const isSuccessByStatus = 200 <= parsedResponse.status && parsedResponse.status < 300; const isExpectedStatusCode = isOperationSpecEmpty(operationSpec) ? isSuccessByStatus : !!responseSpec; if (isExpectedStatusCode) { if (responseSpec) { if (!responseSpec.isError) { return { error: null, shouldReturnResponse: false }; } } else { return { error: null, shouldReturnResponse: false }; } } const errorResponseSpec = responseSpec !== null && responseSpec !== void 0 ? responseSpec : operationSpec.responses.default; const streaming = ((_a = parsedResponse.request.streamResponseStatusCodes) === null || _a === void 0 ? void 0 : _a.has(parsedResponse.status)) || parsedResponse.request.streamResponseBody; const initialErrorMessage = streaming ? `Unexpected status code: ${parsedResponse.status}` : parsedResponse.bodyAsText; const error = new RestError(initialErrorMessage, undefined, parsedResponse.status, parsedResponse.request, parsedResponse); // If the item failed but there's no error spec or default spec to deserialize the error, // we should fail so we just throw the parsed response if (!errorResponseSpec) { throw error; } const defaultBodyMapper = errorResponseSpec.bodyMapper; const defaultHeadersMapper = errorResponseSpec.headersMapper; try { // If error response has a body, try to deserialize it using default body mapper. // Then try to extract error code & message from it if (parsedResponse.parsedBody) { const parsedBody = parsedResponse.parsedBody; let parsedError; if (defaultBodyMapper) { let valueToDeserialize = parsedBody; if (operationSpec.isXML && defaultBodyMapper.type.name === MapperType.Sequence) { valueToDeserialize = typeof parsedBody === "object" ? parsedBody[defaultBodyMapper.xmlElementName] : []; } parsedError = operationSpec.serializer.deserialize(defaultBodyMapper, valueToDeserialize, "error.response.parsedBody"); } const internalError = parsedBody.error || parsedError || parsedBody; error.code = internalError.code; if (internalError.message) { error.message = internalError.message; } if (defaultBodyMapper) { error.response.parsedBody = parsedError; } } // If error response has headers, try to deserialize it using default header mapper if (parsedResponse.headers && defaultHeadersMapper) { error.response.parsedHeaders = operationSpec.serializer.deserialize(defaultHeadersMapper, parsedResponse.headers.toJson(), "operationRes.parsedHeaders"); } } catch (defaultError) { error.message = `Error "${defaultError.message}" occurred in deserializing the responseBody - "${parsedResponse.bodyAsText}" for the default response.`; } return { error, shouldReturnResponse: false }; } function parse(jsonContentTypes, xmlContentTypes, operationResponse, opts) { var _a; const errorHandler = (err) => { const msg = `Error "${err}" occurred while parsing the response body - ${operationResponse.bodyAsText}.`; const errCode = err.code || RestError.PARSE_ERROR; const e = new RestError(msg, errCode, operationResponse.status, operationResponse.request, operationResponse); return Promise.reject(e); }; const streaming = ((_a = operationResponse.request.streamResponseStatusCodes) === null || _a === void 0 ? void 0 : _a.has(operationResponse.status)) || operationResponse.request.streamResponseBody; if (!streaming && operationResponse.bodyAsText) { const text = operationResponse.bodyAsText; const contentType = operationResponse.headers.get("Content-Type") || ""; const contentComponents = !contentType ? [] : contentType.split(";").map((component) => component.toLowerCase()); if (contentComponents.length === 0 || contentComponents.some((component) => jsonContentTypes.indexOf(component) !== -1)) { return new Promise((resolve) => { operationResponse.parsedBody = JSON.parse(text); resolve(operationResponse); }).catch(errorHandler); } else if (contentComponents.some((component) => xmlContentTypes.indexOf(component) !== -1)) { return parseXML(text, opts) .then((body) => { operationResponse.parsedBody = body; return operationResponse; }) .catch(errorHandler); } } return Promise.resolve(operationResponse); } // Copyright (c) Microsoft Corporation. /** * By default, HTTP connections are maintained for future requests. */ const DefaultKeepAliveOptions = { enable: true, }; /** * Creates a policy that controls whether HTTP connections are maintained on future requests. * @param keepAliveOptions - Keep alive options. By default, HTTP connections are maintained for future requests. * @returns An instance of the {@link KeepAlivePolicy} */ function keepAlivePolicy(keepAliveOptions) { return { create: (nextPolicy, options) => { return new KeepAlivePolicy(nextPolicy, options, keepAliveOptions || DefaultKeepAliveOptions); }, }; } /** * KeepAlivePolicy is a policy used to control keep alive settings for every request. */ class KeepAlivePolicy extends BaseRequestPolicy { /** * Creates an instance of KeepAlivePolicy. * * @param nextPolicy - * @param options - * @param keepAliveOptions - */ constructor(nextPolicy, options, keepAliveOptions) { super(nextPolicy, options); this.keepAliveOptions = keepAliveOptions; } /** * Sends out request. * * @param request - * @returns */ async sendRequest(request) { request.keepAlive = this.keepAliveOptions.enable; return this._nextPolicy.sendRequest(request); } } // Copyright (c) Microsoft Corporation. /** * Methods that are allowed to follow redirects 301 and 302 */ const allowedRedirect = ["GET", "HEAD"]; const DefaultRedirectOptions = { handleRedirects: true, maxRetries: 20, }; /** * Creates a redirect policy, which sends a repeats the request to a new destination if a response arrives with a "location" header, and a status code between 300 and 307. * @param maximumRetries - Maximum number of redirects to follow. * @returns An instance of the {@link RedirectPolicy} */ function redirectPolicy(maximumRetries = 20) { return { create: (nextPolicy, options) => { return new RedirectPolicy(nextPolicy, options, maximumRetries); }, }; } /** * Resends the request to a new destination if a response arrives with a "location" header, and a status code between 300 and 307. */ class RedirectPolicy extends BaseRequestPolicy { constructor(nextPolicy, options, maxRetries = 20) { super(nextPolicy, options); this.maxRetries = maxRetries; } sendRequest(request) { return this._nextPolicy .sendRequest(request) .then((response) => handleRedirect(this, response, 0)); } } function handleRedirect(policy, response, currentRetries) { const { request, status } = response; const locationHeader = response.headers.get("location"); if (locationHeader && (status === 300 || (status === 301 && allowedRedirect.includes(request.method)) || (status === 302 && allowedRedirect.includes(request.method)) || (status === 303 && request.method === "POST") || status === 307) && (!policy.maxRetries || currentRetries < policy.maxRetries)) { const builder = URLBuilder.parse(request.url); builder.setPath(locationHeader); request.url = builder.toString(); // POST request with Status code 303 should be converted into a // redirected GET request if the redirect url is present in the location header if (status === 303) { request.method = "GET"; delete request.body; } return policy._nextPolicy .sendRequest(request) .then((res) => handleRedirect(policy, res, currentRetries + 1)); } return Promise.resolve(response); } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. const DEFAULT_CLIENT_RETRY_COUNT = 3; // intervals are in ms const DEFAULT_CLIENT_RETRY_INTERVAL = 1000 * 30; const DEFAULT_CLIENT_MAX_RETRY_INTERVAL = 1000 * 90; const DEFAULT_CLIENT_MIN_RETRY_INTERVAL = 1000 * 3; function isNumber(n) { return typeof n === "number"; } /** * @internal * Determines if the operation should be retried. * * @param retryLimit - Specifies the max number of retries. * @param predicate - Initial chekck on whether to retry based on given responses or errors * @param retryData - The retry data. * @returns True if the operation qualifies for a retry; false otherwise. */ function shouldRetry(retryLimit, predicate, retryData, response, error) { if (!predicate(response, error)) { return false; } return retryData.retryCount < retryLimit; } /** * @internal * Updates the retry data for the next attempt. * * @param retryOptions - specifies retry interval, and its lower bound and upper bound. * @param retryData - The retry data. * @param err - The operation"s error, if any. */ function updateRetryData(retryOptions, retryData = { retryCount: 0, retryInterval: 0 }, err) { if (err) { if (retryData.error) { err.innerError = retryData.error; } retryData.error = err; } // Adjust retry count retryData.retryCount++; // Adjust retry interval let incrementDelta = Math.pow(2, retryData.retryCount - 1) - 1; const boundedRandDelta = retryOptions.retryInterval * 0.8 + Math.floor(Math.random() * (retryOptions.retryInterval * 0.4)); incrementDelta *= boundedRandDelta; retryData.retryInterval = Math.min(retryOptions.minRetryInterval + incrementDelta, retryOptions.maxRetryInterval); return retryData; } // Copyright (c) Microsoft Corporation. /** * Policy that retries the request as many times as configured for as long as the max retry time interval specified, each retry waiting longer to begin than the last time. * @param retryCount - Maximum number of retries. * @param retryInterval - Base time between retries. * @param maxRetryInterval - Maximum time to wait between retries. */ function exponentialRetryPolicy(retryCount, retryInterval, maxRetryInterval) { return { create: (nextPolicy, options) => { return new ExponentialRetryPolicy(nextPolicy, options, retryCount, retryInterval, maxRetryInterval); }, }; } /** * Describes the Retry Mode type. Currently supporting only Exponential. */ exports.RetryMode = void 0; (function (RetryMode) { /** * Currently supported retry mode. * Each time a retry happens, it will take exponentially more time than the last time. */ RetryMode[RetryMode["Exponential"] = 0] = "Exponential"; })(exports.RetryMode || (exports.RetryMode = {})); const DefaultRetryOptions = { maxRetries: DEFAULT_CLIENT_RETRY_COUNT, retryDelayInMs: DEFAULT_CLIENT_RETRY_INTERVAL, maxRetryDelayInMs: DEFAULT_CLIENT_MAX_RETRY_INTERVAL, }; /** * Instantiates a new "ExponentialRetryPolicyFilter" instance. */ class ExponentialRetryPolicy extends BaseRequestPolicy { /** * @param nextPolicy - The next RequestPolicy in the pipeline chain. * @param options - The options for this RequestPolicy. * @param retryCount - The client retry count. * @param retryInterval - The client retry interval, in milliseconds. * @param minRetryInterval - The minimum retry interval, in milliseconds. * @param maxRetryInterval - The maximum retry interval, in milliseconds. */ constructor(nextPolicy, options, retryCount, retryInterval, maxRetryInterval) { super(nextPolicy, options); this.retryCount = isNumber(retryCount) ? retryCount : DEFAULT_CLIENT_RETRY_COUNT; this.retryInterval = isNumber(retryInterval) ? retryInterval : DEFAULT_CLIENT_RETRY_INTERVAL; this.maxRetryInterval = isNumber(maxRetryInterval) ? maxRetryInterval : DEFAULT_CLIENT_MAX_RETRY_INTERVAL; } sendRequest(request) { return this._nextPolicy .sendRequest(request.clone()) .then((response) => retry$1(this, request, response)) .catch((error) => retry$1(this, request, error.response, undefined, error)); } } async function retry$1(policy, request, response, retryData, requestError) { function shouldPolicyRetry(responseParam) { const statusCode = responseParam === null || responseParam === void 0 ? void 0 : responseParam.status; if (statusCode === 503 && (response === null || response === void 0 ? void 0 : response.headers.get(Constants.HeaderConstants.RETRY_AFTER))) { return false; } if (statusCode === undefined || (statusCode < 500 && statusCode !== 408) || statusCode === 501 || statusCode === 505) { return false; } return true; } retryData = updateRetryData({ retryInterval: policy.retryInterval, minRetryInterval: 0, maxRetryInterval: policy.maxRetryInterval, }, retryData, requestError); const isAborted = request.abortSignal && request.abortSignal.aborted; if (!isAborted && shouldRetry(policy.retryCount, shouldPolicyRetry, retryData, response)) { logger.info(`Retrying request in ${retryData.retryInterval}`); try { await coreUtil.delay(retryData.retryInterval); const res = await policy._nextPolicy.sendRequest(request.clone()); return retry$1(policy, request, res, retryData); } catch (err) { return retry$1(policy, request, response, retryData, err); } } else if (isAborted || requestError || !response) { // If the operation failed in the end, return all errors instead of just the last one const err = retryData.error || new RestError("Failed to send the request.", RestError.REQUEST_SEND_ERROR, response && response.status, response && response.request, response); throw err; } else { return response; } } // Copyright (c) Microsoft Corporation. /** * Creates a policy that logs information about the outgoing request and the incoming responses. * @param loggingOptions - Logging options. * @returns An instance of the {@link LogPolicy} */ function logPolicy(loggingOptions = {}) { return { create: (nextPolicy, options) => { return new LogPolicy(nextPolicy, options, loggingOptions); }, }; } /** * A policy that logs information about the outgoing request and the incoming responses. */ class LogPolicy extends BaseRequestPolicy { constructor(nextPolicy, options, { logger: logger$1 = logger.info, allowedHeaderNames = [], allowedQueryParameters = [], } = {}) { super(nextPolicy, options); this.logger = logger$1; this.sanitizer = new Sanitizer({ allowedHeaderNames, allowedQueryParameters }); } /** * Header names whose values will be logged when logging is enabled. Defaults to * Date, traceparent, x-ms-client-request-id, and x-ms-request id. Any headers * specified in this field will be added to that list. Any other values will * be written to logs as "REDACTED". * @deprecated Pass these into the constructor instead. */ get allowedHeaderNames() { return this.sanitizer.allowedHeaderNames; } /** * Header names whose values will be logged when logging is enabled. Defaults to * Date, traceparent, x-ms-client-request-id, and x-ms-request id. Any headers * specified in this field will be added to that list. Any other values will * be written to logs as "REDACTED". * @deprecated Pass these into the constructor instead. */ set allowedHeaderNames(allowedHeaderNames) { this.sanitizer.allowedHeaderNames = allowedHeaderNames; } /** * Query string names whose values will be logged when logging is enabled. By default no * query string values are logged. * @deprecated Pass these into the constructor instead. */ get allowedQueryParameters() { return this.sanitizer.allowedQueryParameters; } /** * Query string names whose values will be logged when logging is enabled. By default no * query string values are logged. * @deprecated Pass these into the constructor instead. */ set allowedQueryParameters(allowedQueryParameters) { this.sanitizer.allowedQueryParameters = allowedQueryParameters; } sendRequest(request) { if (!this.logger.enabled) return this._nextPolicy.sendRequest(request); this.logRequest(request); return this._nextPolicy.sendRequest(request).then((response) => this.logResponse(response)); } logRequest(request) { this.logger(`Request: ${this.sanitizer.sanitize(request)}`); } logResponse(response) { this.logger(`Response status code: ${response.status}`); this.logger(`Headers: ${this.sanitizer.sanitize(response.headers)}`); return response; } } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /** * Get the path to this parameter's value as a dotted string (a.b.c). * @param parameter - The parameter to get the path string for. * @returns The path to this parameter's value as a dotted string. */ function getPathStringFromParameter(parameter) { return getPathStringFromParameterPath(parameter.parameterPath, parameter.mapper); } function getPathStringFromParameterPath(parameterPath, mapper) { let result; if (typeof parameterPath === "string") { result = parameterPath; } else if (Array.isArray(parameterPath)) { result = parameterPath.join("."); } else { result = mapper.serializedName; } return result; } // Copyright (c) Microsoft Corporation. /** * Gets the list of status codes for streaming responses. * @internal */ function getStreamResponseStatusCodes(operationSpec) { const result = new Set(); for (const statusCode in operationSpec.responses) { const operationResponse = operationSpec.responses[statusCode]; if (operationResponse.bodyMapper && operationResponse.bodyMapper.type.name === MapperType.Stream) { result.add(Number(statusCode)); } } return result; } // Copyright (c) Microsoft Corporation. function getDefaultUserAgentKey() { return Constants.HeaderConstants.USER_AGENT; } function getPlatformSpecificData() { const runtimeInfo = { key: "Node", value: process.version, }; const osInfo = { key: "OS", value: `(${os__namespace.arch()}-${os__namespace.type()}-${os__namespace.release()})`, }; return [runtimeInfo, osInfo]; } // Copyright (c) Microsoft Corporation. function getRuntimeInfo() { const msRestRuntime = { key: "core-http", value: Constants.coreHttpVersion, }; return [msRestRuntime]; } function getUserAgentString(telemetryInfo, keySeparator = " ", valueSeparator = "/") { return telemetryInfo .map((info) => { const value = info.value ? `${valueSeparator}${info.value}` : ""; return `${info.key}${value}`; }) .join(keySeparator); } const getDefaultUserAgentHeaderName = getDefaultUserAgentKey; /** * The default approach to generate user agents. * Uses static information from this package, plus system information available from the runtime. */ function getDefaultUserAgentValue() { const runtimeInfo = getRuntimeInfo(); const platformSpecificData = getPlatformSpecificData(); const userAgent = getUserAgentString(runtimeInfo.concat(platformSpecificData)); return userAgent; } /** * Returns a policy that adds the user agent header to outgoing requests based on the given {@link TelemetryInfo}. * @param userAgentData - Telemetry information. * @returns A new {@link UserAgentPolicy}. */ function userAgentPolicy(userAgentData) { const key = !userAgentData || userAgentData.key === undefined || userAgentData.key === null ? getDefaultUserAgentKey() : userAgentData.key; const value = !userAgentData || userAgentData.value === undefined || userAgentData.value === null ? getDefaultUserAgentValue() : userAgentData.value; return { create: (nextPolicy, options) => { return new UserAgentPolicy(nextPolicy, options, key, value); }, }; } /** * A policy that adds the user agent header to outgoing requests based on the given {@link TelemetryInfo}. */ class UserAgentPolicy extends BaseRequestPolicy { constructor(_nextPolicy, _options, headerKey, headerValue) { super(_nextPolicy, _options); this._nextPolicy = _nextPolicy; this._options = _options; this.headerKey = headerKey; this.headerValue = headerValue; } sendRequest(request) { this.addUserAgentHeader(request); return this._nextPolicy.sendRequest(request); } /** * Adds the user agent header to the outgoing request. */ addUserAgentHeader(request) { if (!request.headers) { request.headers = new HttpHeaders(); } if (!request.headers.get(this.headerKey) && this.headerValue) { request.headers.set(this.headerKey, this.headerValue); } } } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /** * The format that will be used to join an array of values together for a query parameter value. */ exports.QueryCollectionFormat = void 0; (function (QueryCollectionFormat) { /** * CSV: Each pair of segments joined by a single comma. */ QueryCollectionFormat["Csv"] = ","; /** * SSV: Each pair of segments joined by a single space character. */ QueryCollectionFormat["Ssv"] = " "; /** * TSV: Each pair of segments joined by a single tab character. */ QueryCollectionFormat["Tsv"] = "\t"; /** * Pipes: Each pair of segments joined by a single pipe character. */ QueryCollectionFormat["Pipes"] = "|"; /** * Denotes this is an array of values that should be passed to the server in multiple key/value pairs, e.g. `?queryParam=value1&queryParam=value2` */ QueryCollectionFormat["Multi"] = "Multi"; })(exports.QueryCollectionFormat || (exports.QueryCollectionFormat = {})); // Copyright (c) Microsoft Corporation. // Default options for the cycler if none are provided const DEFAULT_CYCLER_OPTIONS = { forcedRefreshWindowInMs: 1000, retryIntervalInMs: 3000, refreshWindowInMs: 1000 * 60 * 2, // Start refreshing 2m before expiry }; /** * Converts an an unreliable access token getter (which may resolve with null) * into an AccessTokenGetter by retrying the unreliable getter in a regular * interval. * * @param getAccessToken - a function that produces a promise of an access * token that may fail by returning null * @param retryIntervalInMs - the time (in milliseconds) to wait between retry * attempts * @param timeoutInMs - the timestamp after which the refresh attempt will fail, * throwing an exception * @returns - a promise that, if it resolves, will resolve with an access token */ async function beginRefresh(getAccessToken, retryIntervalInMs, timeoutInMs) { // This wrapper handles exceptions gracefully as long as we haven't exceeded // the timeout. async function tryGetAccessToken() { if (Date.now() < timeoutInMs) { try { return await getAccessToken(); } catch (_a) { return null; } } else { const finalToken = await getAccessToken(); // Timeout is up, so throw if it's still null if (finalToken === null) { throw new Error("Failed to refresh access token."); } return finalToken; } } let token = await tryGetAccessToken(); while (token === null) { await coreUtil.delay(retryIntervalInMs); token = await tryGetAccessToken(); } return token; } /** * Creates a token cycler from a credential, scopes, and optional settings. * * A token cycler represents a way to reliably retrieve a valid access token * from a TokenCredential. It will handle initializing the token, refreshing it * when it nears expiration, and synchronizes refresh attempts to avoid * concurrency hazards. * * @param credential - the underlying TokenCredential that provides the access * token * @param scopes - the scopes to request authorization for * @param tokenCyclerOptions - optionally override default settings for the cycler * * @returns - a function that reliably produces a valid access token */ function createTokenCycler(credential, scopes, tokenCyclerOptions) { let refreshWorker = null; let token = null; const options = Object.assign(Object.assign({}, DEFAULT_CYCLER_OPTIONS), tokenCyclerOptions); /** * This little holder defines several predicates that we use to construct * the rules of refreshing the token. */ const cycler = { /** * Produces true if a refresh job is currently in progress. */ get isRefreshing() { return refreshWorker !== null; }, /** * Produces true if the cycler SHOULD refresh (we are within the refresh * window and not already refreshing) */ get shouldRefresh() { var _a; return (!cycler.isRefreshing && ((_a = token === null || token === void 0 ? void 0 : token.expiresOnTimestamp) !== null && _a !== void 0 ? _a : 0) - options.refreshWindowInMs < Date.now()); }, /** * Produces true if the cycler MUST refresh (null or nearly-expired * token). */ get mustRefresh() { return (token === null || token.expiresOnTimestamp - options.forcedRefreshWindowInMs < Date.now()); }, }; /** * Starts a refresh job or returns the existing job if one is already * running. */ function refresh(getTokenOptions) { var _a; if (!cycler.isRefreshing) { // We bind `scopes` here to avoid passing it around a lot const tryGetAccessToken = () => credential.getToken(scopes, getTokenOptions); // Take advantage of promise chaining to insert an assignment to `token` // before the refresh can be considered done. refreshWorker = beginRefresh(tryGetAccessToken, options.retryIntervalInMs, // If we don't have a token, then we should timeout immediately (_a = token === null || token === void 0 ? void 0 : token.expiresOnTimestamp) !== null && _a !== void 0 ? _a : Date.now()) .then((_token) => { refreshWorker = null; token = _token; return token; }) .catch((reason) => { // We also should reset the refresher if we enter a failed state. All // existing awaiters will throw, but subsequent requests will start a // new retry chain. refreshWorker = null; token = null; throw reason; }); } return refreshWorker; } return async (tokenOptions) => { // // Simple rules: // - If we MUST refresh, then return the refresh task, blocking // the pipeline until a token is available. // - If we SHOULD refresh, then run refresh but don't return it // (we can still use the cached token). // - Return the token, since it's fine if we didn't return in // step 1. // if (cycler.mustRefresh) return refresh(tokenOptions); if (cycler.shouldRefresh) { refresh(tokenOptions); } return token; }; } // #endregion /** * Creates a new factory for a RequestPolicy that applies a bearer token to * the requests' `Authorization` headers. * * @param credential - The TokenCredential implementation that can supply the bearer token. * @param scopes - The scopes for which the bearer token applies. */ function bearerTokenAuthenticationPolicy(credential, scopes) { // This simple function encapsulates the entire process of reliably retrieving the token const getToken = createTokenCycler(credential, scopes /* , options */); class BearerTokenAuthenticationPolicy extends BaseRequestPolicy { constructor(nextPolicy, options) { super(nextPolicy, options); } async sendRequest(webResource) { if (!webResource.url.toLowerCase().startsWith("https://")) { throw new Error("Bearer token authentication is not permitted for non-TLS protected (non-https) URLs."); } const { token } = await getToken({ abortSignal: webResource.abortSignal, tracingOptions: { tracingContext: webResource.tracingContext, }, }); webResource.headers.set(Constants.HeaderConstants.AUTHORIZATION, `Bearer ${token}`); return this._nextPolicy.sendRequest(webResource); } } return { create: (nextPolicy, options) => { return new BearerTokenAuthenticationPolicy(nextPolicy, options); }, }; } // Copyright (c) Microsoft Corporation. /** * Returns a request policy factory that can be used to create an instance of * {@link DisableResponseDecompressionPolicy}. */ function disableResponseDecompressionPolicy() { return { create: (nextPolicy, options) => { return new DisableResponseDecompressionPolicy(nextPolicy, options); }, }; } /** * A policy to disable response decompression according to Accept-Encoding header * https://developer.mozilla.org/en-US/docs/Web/HTTP/Headers/Accept-Encoding */ class DisableResponseDecompressionPolicy extends BaseRequestPolicy { /** * Creates an instance of DisableResponseDecompressionPolicy. * * @param nextPolicy - * @param options - */ // The parent constructor is protected. /* eslint-disable-next-line @typescript-eslint/no-useless-constructor */ constructor(nextPolicy, options) { super(nextPolicy, options); } /** * Sends out request. * * @param request - * @returns */ async sendRequest(request) { request.decompressResponse = false; return this._nextPolicy.sendRequest(request); } } // Copyright (c) Microsoft Corporation. /** * Creates a policy that assigns a unique request id to outgoing requests. * @param requestIdHeaderName - The name of the header to use when assigning the unique id to the request. */ function generateClientRequestIdPolicy(requestIdHeaderName = "x-ms-client-request-id") { return { create: (nextPolicy, options) => { return new GenerateClientRequestIdPolicy(nextPolicy, options, requestIdHeaderName); }, }; } class GenerateClientRequestIdPolicy extends BaseRequestPolicy { constructor(nextPolicy, options, _requestIdHeaderName) { super(nextPolicy, options); this._requestIdHeaderName = _requestIdHeaderName; } sendRequest(request) { if (!request.headers.contains(this._requestIdHeaderName)) { request.headers.set(this._requestIdHeaderName, request.requestId); } return this._nextPolicy.sendRequest(request); } } // Copyright (c) Microsoft Corporation. let cachedHttpClient; function getCachedDefaultHttpClient() { if (!cachedHttpClient) { cachedHttpClient = new NodeFetchHttpClient(); } return cachedHttpClient; } // Copyright (c) Microsoft Corporation. function ndJsonPolicy() { return { create: (nextPolicy, options) => { return new NdJsonPolicy(nextPolicy, options); }, }; } /** * NdJsonPolicy that formats a JSON array as newline-delimited JSON */ class NdJsonPolicy extends BaseRequestPolicy { /** * Creates an instance of KeepAlivePolicy. */ constructor(nextPolicy, options) { super(nextPolicy, options); } /** * Sends a request. */ async sendRequest(request) { // There currently isn't a good way to bypass the serializer if (typeof request.body === "string" && request.body.startsWith("[")) { const body = JSON.parse(request.body); if (Array.isArray(body)) { request.body = body.map((item) => JSON.stringify(item) + "\n").join(""); } } return this._nextPolicy.sendRequest(request); } } // Copyright (c) Microsoft Corporation. /** * Stores the patterns specified in NO_PROXY environment variable. * @internal */ const globalNoProxyList = []; let noProxyListLoaded = false; /** A cache of whether a host should bypass the proxy. */ const globalBypassedMap = new Map(); function loadEnvironmentProxyValue() { if (!process) { return undefined; } const httpsProxy = getEnvironmentValue(Constants.HTTPS_PROXY); const allProxy = getEnvironmentValue(Constants.ALL_PROXY); const httpProxy = getEnvironmentValue(Constants.HTTP_PROXY); return httpsProxy || allProxy || httpProxy; } /** * Check whether the host of a given `uri` matches any pattern in the no proxy list. * If there's a match, any request sent to the same host shouldn't have the proxy settings set. * This implementation is a port of https://github.com/Azure/azure-sdk-for-net/blob/8cca811371159e527159c7eb65602477898683e2/sdk/core/Azure.Core/src/Pipeline/Internal/HttpEnvironmentProxy.cs#L210 */ function isBypassed(uri, noProxyList, bypassedMap) { if (noProxyList.length === 0) { return false; } const host = URLBuilder.parse(uri).getHost(); if (bypassedMap === null || bypassedMap === void 0 ? void 0 : bypassedMap.has(host)) { return bypassedMap.get(host); } let isBypassedFlag = false; for (const pattern of noProxyList) { if (pattern[0] === ".") { // This should match either domain it self or any subdomain or host // .foo.com will match foo.com it self or *.foo.com if (host.endsWith(pattern)) { isBypassedFlag = true; } else { if (host.length === pattern.length - 1 && host === pattern.slice(1)) { isBypassedFlag = true; } } } else { if (host === pattern) { isBypassedFlag = true; } } } bypassedMap === null || bypassedMap === void 0 ? void 0 : bypassedMap.set(host, isBypassedFlag); return isBypassedFlag; } /** * @internal */ function loadNoProxy() { const noProxy = getEnvironmentValue(Constants.NO_PROXY); noProxyListLoaded = true; if (noProxy) { return noProxy .split(",") .map((item) => item.trim()) .filter((item) => item.length); } return []; } /** * Converts a given URL of a proxy server into `ProxySettings` or attempts to retrieve `ProxySettings` from the current environment if one is not passed. * @param proxyUrl - URL of the proxy * @returns The default proxy settings, or undefined. */ function getDefaultProxySettings(proxyUrl) { if (!proxyUrl) { proxyUrl = loadEnvironmentProxyValue(); if (!proxyUrl) { return undefined; } } const { username, password, urlWithoutAuth } = extractAuthFromUrl(proxyUrl); const parsedUrl = URLBuilder.parse(urlWithoutAuth); const schema = parsedUrl.getScheme() ? parsedUrl.getScheme() + "://" : ""; return { host: schema + parsedUrl.getHost(), port: Number.parseInt(parsedUrl.getPort() || "80"), username, password, }; } /** * A policy that allows one to apply proxy settings to all requests. * If not passed static settings, they will be retrieved from the HTTPS_PROXY * or HTTP_PROXY environment variables. * @param proxySettings - ProxySettings to use on each request. * @param options - additional settings, for example, custom NO_PROXY patterns */ function proxyPolicy(proxySettings, options) { if (!proxySettings) { proxySettings = getDefaultProxySettings(); } if (!noProxyListLoaded) { globalNoProxyList.push(...loadNoProxy()); } return { create: (nextPolicy, requestPolicyOptions) => { return new ProxyPolicy(nextPolicy, requestPolicyOptions, proxySettings, options === null || options === void 0 ? void 0 : options.customNoProxyList); }, }; } function extractAuthFromUrl(url) { const atIndex = url.indexOf("@"); if (atIndex === -1) { return { urlWithoutAuth: url }; } const schemeIndex = url.indexOf("://"); const authStart = schemeIndex !== -1 ? schemeIndex + 3 : 0; const auth = url.substring(authStart, atIndex); const colonIndex = auth.indexOf(":"); const hasPassword = colonIndex !== -1; const username = hasPassword ? auth.substring(0, colonIndex) : auth; const password = hasPassword ? auth.substring(colonIndex + 1) : undefined; const urlWithoutAuth = url.substring(0, authStart) + url.substring(atIndex + 1); return { username, password, urlWithoutAuth, }; } class ProxyPolicy extends BaseRequestPolicy { constructor(nextPolicy, options, proxySettings, customNoProxyList) { super(nextPolicy, options); this.proxySettings = proxySettings; this.customNoProxyList = customNoProxyList; } sendRequest(request) { var _a; if (!request.proxySettings && !isBypassed(request.url, (_a = this.customNoProxyList) !== null && _a !== void 0 ? _a : globalNoProxyList, this.customNoProxyList ? undefined : globalBypassedMap)) { request.proxySettings = this.proxySettings; } return this._nextPolicy.sendRequest(request); } } // Copyright (c) Microsoft Corporation. function rpRegistrationPolicy(retryTimeout = 30) { return { create: (nextPolicy, options) => { return new RPRegistrationPolicy(nextPolicy, options, retryTimeout); }, }; } class RPRegistrationPolicy extends BaseRequestPolicy { constructor(nextPolicy, options, _retryTimeout = 30) { super(nextPolicy, options); this._retryTimeout = _retryTimeout; } sendRequest(request) { return this._nextPolicy .sendRequest(request.clone()) .then((response) => registerIfNeeded(this, request, response)); } } function registerIfNeeded(policy, request, response) { if (response.status === 409) { const rpName = checkRPNotRegisteredError(response.bodyAsText); if (rpName) { const urlPrefix = extractSubscriptionUrl(request.url); return (registerRP(policy, urlPrefix, rpName, request) // Autoregistration of ${provider} failed for some reason. We will not return this error // instead will return the initial response with 409 status code back to the user. // do nothing here as we are returning the original response at the end of this method. .catch(() => false) .then((registrationStatus) => { if (registrationStatus) { // Retry the original request. We have to change the x-ms-client-request-id // otherwise Azure endpoint will return the initial 409 (cached) response. request.headers.set("x-ms-client-request-id", generateUuid()); return policy._nextPolicy.sendRequest(request.clone()); } return response; })); } } return Promise.resolve(response); } /** * Reuses the headers of the original request and url (if specified). * @param originalRequest - The original request * @param reuseUrlToo - Should the url from the original request be reused as well. Default false. * @returns A new request object with desired headers. */ function getRequestEssentials(originalRequest, reuseUrlToo = false) { const reqOptions = originalRequest.clone(); if (reuseUrlToo) { reqOptions.url = originalRequest.url; } // We have to change the x-ms-client-request-id otherwise Azure endpoint // will return the initial 409 (cached) response. reqOptions.headers.set("x-ms-client-request-id", generateUuid()); // Set content-type to application/json reqOptions.headers.set("Content-Type", "application/json; charset=utf-8"); return reqOptions; } /** * Validates the error code and message associated with 409 response status code. If it matches to that of * RP not registered then it returns the name of the RP else returns undefined. * @param body - The response body received after making the original request. * @returns The name of the RP if condition is satisfied else undefined. */ function checkRPNotRegisteredError(body) { let result, responseBody; if (body) { try { responseBody = JSON.parse(body); } catch (err) { // do nothing; } if (responseBody && responseBody.error && responseBody.error.message && responseBody.error.code && responseBody.error.code === "MissingSubscriptionRegistration") { const matchRes = responseBody.error.message.match(/.*'(.*)'/i); if (matchRes) { result = matchRes.pop(); } } } return result; } /** * Extracts the first part of the URL, just after subscription: * https://management.azure.com/subscriptions/00000000-0000-0000-0000-000000000000/ * @param url - The original request url * @returns The url prefix as explained above. */ function extractSubscriptionUrl(url) { let result; const matchRes = url.match(/.*\/subscriptions\/[a-f0-9-]+\//gi); if (matchRes && matchRes[0]) { result = matchRes[0]; } else { throw new Error(`Unable to extract subscriptionId from the given url - ${url}.`); } return result; } /** * Registers the given provider. * @param policy - The RPRegistrationPolicy this function is being called against. * @param urlPrefix - https://management.azure.com/subscriptions/00000000-0000-0000-0000-000000000000/ * @param provider - The provider name to be registered. * @param originalRequest - The original request sent by the user that returned a 409 response * with a message that the provider is not registered. */ async function registerRP(policy, urlPrefix, provider, originalRequest) { const postUrl = `${urlPrefix}providers/${provider}/register?api-version=2016-02-01`; const getUrl = `${urlPrefix}providers/${provider}?api-version=2016-02-01`; const reqOptions = getRequestEssentials(originalRequest); reqOptions.method = "POST"; reqOptions.url = postUrl; const response = await policy._nextPolicy.sendRequest(reqOptions); if (response.status !== 200) { throw new Error(`Autoregistration of ${provider} failed. Please try registering manually.`); } return getRegistrationStatus(policy, getUrl, originalRequest); } /** * Polls the registration status of the provider that was registered. Polling happens at an interval of 30 seconds. * Polling will happen till the registrationState property of the response body is "Registered". * @param policy - The RPRegistrationPolicy this function is being called against. * @param url - The request url for polling * @param originalRequest - The original request sent by the user that returned a 409 response * with a message that the provider is not registered. * @returns True if RP Registration is successful. */ async function getRegistrationStatus(policy, url, originalRequest) { const reqOptions = getRequestEssentials(originalRequest); reqOptions.url = url; reqOptions.method = "GET"; const res = await policy._nextPolicy.sendRequest(reqOptions); const obj = res.parsedBody; if (res.parsedBody && obj.registrationState && obj.registrationState === "Registered") { return true; } else { await coreUtil.delay(policy._retryTimeout * 1000); return getRegistrationStatus(policy, url, originalRequest); } } // Copyright (c) Microsoft Corporation. /** * Creates a policy that signs outgoing requests by calling to the provided `authenticationProvider`'s `signRequest` method. * @param authenticationProvider - The authentication provider. * @returns An instance of the {@link SigningPolicy}. */ function signingPolicy(authenticationProvider) { return { create: (nextPolicy, options) => { return new SigningPolicy(nextPolicy, options, authenticationProvider); }, }; } /** * A policy that signs outgoing requests by calling to the provided `authenticationProvider`'s `signRequest` method. */ class SigningPolicy extends BaseRequestPolicy { constructor(nextPolicy, options, authenticationProvider) { super(nextPolicy, options); this.authenticationProvider = authenticationProvider; } signRequest(request) { return this.authenticationProvider.signRequest(request); } sendRequest(request) { return this.signRequest(request).then((nextRequest) => this._nextPolicy.sendRequest(nextRequest)); } } // Copyright (c) Microsoft Corporation. /** * A policy that retries when there's a system error, identified by the codes "ETIMEDOUT", "ESOCKETTIMEDOUT", "ECONNREFUSED", "ECONNRESET" or "ENOENT". * @param retryCount - Maximum number of retries. * @param retryInterval - The client retry interval, in milliseconds. * @param minRetryInterval - The minimum retry interval, in milliseconds. * @param maxRetryInterval - The maximum retry interval, in milliseconds. * @returns An instance of the {@link SystemErrorRetryPolicy} */ function systemErrorRetryPolicy(retryCount, retryInterval, minRetryInterval, maxRetryInterval) { return { create: (nextPolicy, options) => { return new SystemErrorRetryPolicy(nextPolicy, options, retryCount, retryInterval, minRetryInterval, maxRetryInterval); }, }; } /** * A policy that retries when there's a system error, identified by the codes "ETIMEDOUT", "ESOCKETTIMEDOUT", "ECONNREFUSED", "ECONNRESET" or "ENOENT". * @param retryCount - The client retry count. * @param retryInterval - The client retry interval, in milliseconds. * @param minRetryInterval - The minimum retry interval, in milliseconds. * @param maxRetryInterval - The maximum retry interval, in milliseconds. */ class SystemErrorRetryPolicy extends BaseRequestPolicy { constructor(nextPolicy, options, retryCount, retryInterval, minRetryInterval, maxRetryInterval) { super(nextPolicy, options); this.retryCount = isNumber(retryCount) ? retryCount : DEFAULT_CLIENT_RETRY_COUNT; this.retryInterval = isNumber(retryInterval) ? retryInterval : DEFAULT_CLIENT_RETRY_INTERVAL; this.minRetryInterval = isNumber(minRetryInterval) ? minRetryInterval : DEFAULT_CLIENT_MIN_RETRY_INTERVAL; this.maxRetryInterval = isNumber(maxRetryInterval) ? maxRetryInterval : DEFAULT_CLIENT_MAX_RETRY_INTERVAL; } sendRequest(request) { return this._nextPolicy .sendRequest(request.clone()) .catch((error) => retry(this, request, error.response, error)); } } async function retry(policy, request, operationResponse, err, retryData) { retryData = updateRetryData(policy, retryData, err); function shouldPolicyRetry(_response, error) { if (error && error.code && (error.code === "ETIMEDOUT" || error.code === "ESOCKETTIMEDOUT" || error.code === "ECONNREFUSED" || error.code === "ECONNRESET" || error.code === "ENOENT")) { return true; } return false; } if (shouldRetry(policy.retryCount, shouldPolicyRetry, retryData, operationResponse, err)) { // If previous operation ended with an error and the policy allows a retry, do that try { await coreUtil.delay(retryData.retryInterval); return policy._nextPolicy.sendRequest(request.clone()); } catch (nestedErr) { return retry(policy, request, operationResponse, nestedErr, retryData); } } else { if (err) { // If the operation failed in the end, return all errors instead of just the last one return Promise.reject(retryData.error); } return operationResponse; } } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /** * Maximum number of retries for the throttling retry policy */ const DEFAULT_CLIENT_MAX_RETRY_COUNT = 3; // Copyright (c) Microsoft Corporation. const StatusCodes = Constants.HttpConstants.StatusCodes; /** * Creates a policy that re-sends the request if the response indicates the request failed because of throttling reasons. * For example, if the response contains a `Retry-After` header, it will retry sending the request based on the value of that header. * * To learn more, please refer to * https://docs.microsoft.com/en-us/azure/azure-resource-manager/resource-manager-request-limits, * https://docs.microsoft.com/en-us/azure/azure-subscription-service-limits and * https://docs.microsoft.com/en-us/azure/virtual-machines/troubleshooting/troubleshooting-throttling-errors * @returns */ function throttlingRetryPolicy() { return { create: (nextPolicy, options) => { return new ThrottlingRetryPolicy(nextPolicy, options); }, }; } const StandardAbortMessage = "The operation was aborted."; /** * Creates a policy that re-sends the request if the response indicates the request failed because of throttling reasons. * For example, if the response contains a `Retry-After` header, it will retry sending the request based on the value of that header. * * To learn more, please refer to * https://docs.microsoft.com/en-us/azure/azure-resource-manager/resource-manager-request-limits, * https://docs.microsoft.com/en-us/azure/azure-subscription-service-limits and * https://docs.microsoft.com/en-us/azure/virtual-machines/troubleshooting/troubleshooting-throttling-errors */ class ThrottlingRetryPolicy extends BaseRequestPolicy { constructor(nextPolicy, options, _handleResponse) { super(nextPolicy, options); this.numberOfRetries = 0; this._handleResponse = _handleResponse || this._defaultResponseHandler; } async sendRequest(httpRequest) { const response = await this._nextPolicy.sendRequest(httpRequest.clone()); if (response.status !== StatusCodes.TooManyRequests && response.status !== StatusCodes.ServiceUnavailable) { return response; } else { return this._handleResponse(httpRequest, response); } } async _defaultResponseHandler(httpRequest, httpResponse) { var _a; const retryAfterHeader = httpResponse.headers.get(Constants.HeaderConstants.RETRY_AFTER); if (retryAfterHeader) { const delayInMs = ThrottlingRetryPolicy.parseRetryAfterHeader(retryAfterHeader); if (delayInMs) { this.numberOfRetries += 1; await coreUtil.delay(delayInMs, { abortSignal: httpRequest.abortSignal, abortErrorMsg: StandardAbortMessage, }); if ((_a = httpRequest.abortSignal) === null || _a === void 0 ? void 0 : _a.aborted) { throw new abortController.AbortError(StandardAbortMessage); } if (this.numberOfRetries < DEFAULT_CLIENT_MAX_RETRY_COUNT) { return this.sendRequest(httpRequest); } else { return this._nextPolicy.sendRequest(httpRequest); } } } return httpResponse; } static parseRetryAfterHeader(headerValue) { const retryAfterInSeconds = Number(headerValue); if (Number.isNaN(retryAfterInSeconds)) { return ThrottlingRetryPolicy.parseDateRetryAfterHeader(headerValue); } else { return retryAfterInSeconds * 1000; } } static parseDateRetryAfterHeader(headerValue) { try { const now = Date.now(); const date = Date.parse(headerValue); const diff = date - now; return Number.isNaN(diff) ? undefined : diff; } catch (error) { return undefined; } } } // Copyright (c) Microsoft Corporation. const createSpan = coreTracing.createSpanFunction({ packagePrefix: "", namespace: "", }); /** * Creates a policy that wraps outgoing requests with a tracing span. * @param tracingOptions - Tracing options. * @returns An instance of the {@link TracingPolicy} class. */ function tracingPolicy(tracingOptions = {}) { return { create(nextPolicy, options) { return new TracingPolicy(nextPolicy, options, tracingOptions); }, }; } /** * A policy that wraps outgoing requests with a tracing span. */ class TracingPolicy extends BaseRequestPolicy { constructor(nextPolicy, options, tracingOptions) { super(nextPolicy, options); this.userAgent = tracingOptions.userAgent; } async sendRequest(request) { if (!request.tracingContext) { return this._nextPolicy.sendRequest(request); } const span = this.tryCreateSpan(request); if (!span) { return this._nextPolicy.sendRequest(request); } try { const response = await this._nextPolicy.sendRequest(request); this.tryProcessResponse(span, response); return response; } catch (err) { this.tryProcessError(span, err); throw err; } } tryCreateSpan(request) { var _a; try { // Passing spanOptions as part of tracingOptions to maintain compatibility @azure/core-tracing@preview.13 and earlier. // We can pass this as a separate parameter once we upgrade to the latest core-tracing. const { span } = createSpan(`HTTP ${request.method}`, { tracingOptions: { spanOptions: Object.assign(Object.assign({}, request.spanOptions), { kind: coreTracing.SpanKind.CLIENT }), tracingContext: request.tracingContext, }, }); // If the span is not recording, don't do any more work. if (!span.isRecording()) { span.end(); return undefined; } const namespaceFromContext = (_a = request.tracingContext) === null || _a === void 0 ? void 0 : _a.getValue(Symbol.for("az.namespace")); if (typeof namespaceFromContext === "string") { span.setAttribute("az.namespace", namespaceFromContext); } span.setAttributes({ "http.method": request.method, "http.url": request.url, requestId: request.requestId, }); if (this.userAgent) { span.setAttribute("http.user_agent", this.userAgent); } // set headers const spanContext = span.spanContext(); const traceParentHeader = coreTracing.getTraceParentHeader(spanContext); if (traceParentHeader && coreTracing.isSpanContextValid(spanContext)) { request.headers.set("traceparent", traceParentHeader); const traceState = spanContext.traceState && spanContext.traceState.serialize(); // if tracestate is set, traceparent MUST be set, so only set tracestate after traceparent if (traceState) { request.headers.set("tracestate", traceState); } } return span; } catch (error) { logger.warning(`Skipping creating a tracing span due to an error: ${error.message}`); return undefined; } } tryProcessError(span, err) { try { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: err.message, }); if (err.statusCode) { span.setAttribute("http.status_code", err.statusCode); } span.end(); } catch (error) { logger.warning(`Skipping tracing span processing due to an error: ${error.message}`); } } tryProcessResponse(span, response) { try { span.setAttribute("http.status_code", response.status); const serviceRequestId = response.headers.get("x-ms-request-id"); if (serviceRequestId) { span.setAttribute("serviceRequestId", serviceRequestId); } span.setStatus({ code: coreTracing.SpanStatusCode.OK, }); span.end(); } catch (error) { logger.warning(`Skipping tracing span processing due to an error: ${error.message}`); } } } // Copyright (c) Microsoft Corporation. /** * ServiceClient sends service requests and receives responses. */ class ServiceClient { /** * The ServiceClient constructor * @param credentials - The credentials used for authentication with the service. * @param options - The service client options that govern the behavior of the client. */ constructor(credentials, /* eslint-disable-next-line @azure/azure-sdk/ts-naming-options */ options) { if (!options) { options = {}; } this._withCredentials = options.withCredentials || false; this._httpClient = options.httpClient || getCachedDefaultHttpClient(); this._requestPolicyOptions = new RequestPolicyOptions(options.httpPipelineLogger); let requestPolicyFactories; if (Array.isArray(options.requestPolicyFactories)) { logger.info("ServiceClient: using custom request policies"); requestPolicyFactories = options.requestPolicyFactories; } else { let authPolicyFactory = undefined; if (coreAuth.isTokenCredential(credentials)) { logger.info("ServiceClient: creating bearer token authentication policy from provided credentials"); // Create a wrapped RequestPolicyFactory here so that we can provide the // correct scope to the BearerTokenAuthenticationPolicy at the first time // one is requested. This is needed because generated ServiceClient // implementations do not set baseUri until after ServiceClient's constructor // is finished, leaving baseUri empty at the time when it is needed to // build the correct scope name. const wrappedPolicyFactory = () => { let bearerTokenPolicyFactory = undefined; // eslint-disable-next-line @typescript-eslint/no-this-alias const serviceClient = this; const serviceClientOptions = options; return { create(nextPolicy, createOptions) { const credentialScopes = getCredentialScopes(serviceClientOptions, serviceClient.baseUri); if (!credentialScopes) { throw new Error(`When using credential, the ServiceClient must contain a baseUri or a credentialScopes in ServiceClientOptions. Unable to create a bearerTokenAuthenticationPolicy`); } if (bearerTokenPolicyFactory === undefined || bearerTokenPolicyFactory === null) { bearerTokenPolicyFactory = bearerTokenAuthenticationPolicy(credentials, credentialScopes); } return bearerTokenPolicyFactory.create(nextPolicy, createOptions); }, }; }; authPolicyFactory = wrappedPolicyFactory(); } else if (credentials && typeof credentials.signRequest === "function") { logger.info("ServiceClient: creating signing policy from provided credentials"); authPolicyFactory = signingPolicy(credentials); } else if (credentials !== undefined && credentials !== null) { throw new Error("The credentials argument must implement the TokenCredential interface"); } logger.info("ServiceClient: using default request policies"); requestPolicyFactories = createDefaultRequestPolicyFactories(authPolicyFactory, options); if (options.requestPolicyFactories) { // options.requestPolicyFactories can also be a function that manipulates // the default requestPolicyFactories array const newRequestPolicyFactories = options.requestPolicyFactories(requestPolicyFactories); if (newRequestPolicyFactories) { requestPolicyFactories = newRequestPolicyFactories; } } } this._requestPolicyFactories = requestPolicyFactories; } /** * Send the provided httpRequest. */ sendRequest(options) { if (options === null || options === undefined || typeof options !== "object") { throw new Error("options cannot be null or undefined and it must be of type object."); } let httpRequest; try { if (isWebResourceLike(options)) { options.validateRequestProperties(); httpRequest = options; } else { httpRequest = new WebResource(); httpRequest = httpRequest.prepare(options); } } catch (error) { return Promise.reject(error); } let httpPipeline = this._httpClient; if (this._requestPolicyFactories && this._requestPolicyFactories.length > 0) { for (let i = this._requestPolicyFactories.length - 1; i >= 0; --i) { httpPipeline = this._requestPolicyFactories[i].create(httpPipeline, this._requestPolicyOptions); } } return httpPipeline.sendRequest(httpRequest); } /** * Send an HTTP request that is populated using the provided OperationSpec. * @param operationArguments - The arguments that the HTTP request's templated values will be populated from. * @param operationSpec - The OperationSpec to use to populate the httpRequest. * @param callback - The callback to call when the response is received. */ async sendOperationRequest(operationArguments, operationSpec, callback) { var _a; if (typeof operationArguments.options === "function") { callback = operationArguments.options; operationArguments.options = undefined; } const serializerOptions = (_a = operationArguments.options) === null || _a === void 0 ? void 0 : _a.serializerOptions; const httpRequest = new WebResource(); let result; try { const baseUri = operationSpec.baseUrl || this.baseUri; if (!baseUri) { throw new Error("If operationSpec.baseUrl is not specified, then the ServiceClient must have a baseUri string property that contains the base URL to use."); } httpRequest.method = operationSpec.httpMethod; httpRequest.operationSpec = operationSpec; const requestUrl = URLBuilder.parse(baseUri); if (operationSpec.path) { requestUrl.appendPath(operationSpec.path); } if (operationSpec.urlParameters && operationSpec.urlParameters.length > 0) { for (const urlParameter of operationSpec.urlParameters) { let urlParameterValue = getOperationArgumentValueFromParameter(this, operationArguments, urlParameter, operationSpec.serializer); urlParameterValue = operationSpec.serializer.serialize(urlParameter.mapper, urlParameterValue, getPathStringFromParameter(urlParameter), serializerOptions); if (!urlParameter.skipEncoding) { urlParameterValue = encodeURIComponent(urlParameterValue); } requestUrl.replaceAll(`{${urlParameter.mapper.serializedName || getPathStringFromParameter(urlParameter)}}`, urlParameterValue); } } if (operationSpec.queryParameters && operationSpec.queryParameters.length > 0) { for (const queryParameter of operationSpec.queryParameters) { let queryParameterValue = getOperationArgumentValueFromParameter(this, operationArguments, queryParameter, operationSpec.serializer); if (queryParameterValue !== undefined && queryParameterValue !== null) { queryParameterValue = operationSpec.serializer.serialize(queryParameter.mapper, queryParameterValue, getPathStringFromParameter(queryParameter), serializerOptions); if (queryParameter.collectionFormat !== undefined && queryParameter.collectionFormat !== null) { if (queryParameter.collectionFormat === exports.QueryCollectionFormat.Multi) { if (queryParameterValue.length === 0) { // The collection is empty, no need to try serializing the current queryParam continue; } else { for (const index in queryParameterValue) { const item = queryParameterValue[index]; queryParameterValue[index] = item === undefined || item === null ? "" : item.toString(); } } } else if (queryParameter.collectionFormat === exports.QueryCollectionFormat.Ssv || queryParameter.collectionFormat === exports.QueryCollectionFormat.Tsv) { queryParameterValue = queryParameterValue.join(queryParameter.collectionFormat); } } if (!queryParameter.skipEncoding) { if (Array.isArray(queryParameterValue)) { for (const index in queryParameterValue) { if (queryParameterValue[index] !== undefined && queryParameterValue[index] !== null) { queryParameterValue[index] = encodeURIComponent(queryParameterValue[index]); } } } else { queryParameterValue = encodeURIComponent(queryParameterValue); } } if (queryParameter.collectionFormat !== undefined && queryParameter.collectionFormat !== null && queryParameter.collectionFormat !== exports.QueryCollectionFormat.Multi && queryParameter.collectionFormat !== exports.QueryCollectionFormat.Ssv && queryParameter.collectionFormat !== exports.QueryCollectionFormat.Tsv) { queryParameterValue = queryParameterValue.join(queryParameter.collectionFormat); } requestUrl.setQueryParameter(queryParameter.mapper.serializedName || getPathStringFromParameter(queryParameter), queryParameterValue); } } } httpRequest.url = requestUrl.toString(); const contentType = operationSpec.contentType || this.requestContentType; if (contentType && operationSpec.requestBody) { httpRequest.headers.set("Content-Type", contentType); } if (operationSpec.headerParameters) { for (const headerParameter of operationSpec.headerParameters) { let headerValue = getOperationArgumentValueFromParameter(this, operationArguments, headerParameter, operationSpec.serializer); if (headerValue !== undefined && headerValue !== null) { headerValue = operationSpec.serializer.serialize(headerParameter.mapper, headerValue, getPathStringFromParameter(headerParameter), serializerOptions); const headerCollectionPrefix = headerParameter.mapper .headerCollectionPrefix; if (headerCollectionPrefix) { for (const key of Object.keys(headerValue)) { httpRequest.headers.set(headerCollectionPrefix + key, headerValue[key]); } } else { httpRequest.headers.set(headerParameter.mapper.serializedName || getPathStringFromParameter(headerParameter), headerValue); } } } } const options = operationArguments.options; if (options) { if (options.customHeaders) { for (const customHeaderName in options.customHeaders) { httpRequest.headers.set(customHeaderName, options.customHeaders[customHeaderName]); } } if (options.abortSignal) { httpRequest.abortSignal = options.abortSignal; } if (options.timeout) { httpRequest.timeout = options.timeout; } if (options.onUploadProgress) { httpRequest.onUploadProgress = options.onUploadProgress; } if (options.onDownloadProgress) { httpRequest.onDownloadProgress = options.onDownloadProgress; } if (options.spanOptions) { // By passing spanOptions if they exist at runtime, we're backwards compatible with @azure/core-tracing@preview.13 and earlier. httpRequest.spanOptions = options.spanOptions; } if (options.tracingContext) { httpRequest.tracingContext = options.tracingContext; } if (options.shouldDeserialize !== undefined && options.shouldDeserialize !== null) { httpRequest.shouldDeserialize = options.shouldDeserialize; } } httpRequest.withCredentials = this._withCredentials; serializeRequestBody(this, httpRequest, operationArguments, operationSpec); if (httpRequest.streamResponseStatusCodes === undefined) { httpRequest.streamResponseStatusCodes = getStreamResponseStatusCodes(operationSpec); } let rawResponse; let sendRequestError; try { rawResponse = await this.sendRequest(httpRequest); } catch (error) { sendRequestError = error; } if (sendRequestError) { if (sendRequestError.response) { sendRequestError.details = flattenResponse(sendRequestError.response, operationSpec.responses[sendRequestError.statusCode] || operationSpec.responses["default"]); } result = Promise.reject(sendRequestError); } else { result = Promise.resolve(flattenResponse(rawResponse, operationSpec.responses[rawResponse.status])); } } catch (error) { result = Promise.reject(error); } const cb = callback; if (cb) { result .then((res) => cb(null, res._response.parsedBody, res._response.request, res._response)) .catch((err) => cb(err)); } return result; } } function serializeRequestBody(serviceClient, httpRequest, operationArguments, operationSpec) { var _a, _b, _c, _d, _e, _f; const serializerOptions = (_b = (_a = operationArguments.options) === null || _a === void 0 ? void 0 : _a.serializerOptions) !== null && _b !== void 0 ? _b : {}; const updatedOptions = { rootName: (_c = serializerOptions.rootName) !== null && _c !== void 0 ? _c : "", includeRoot: (_d = serializerOptions.includeRoot) !== null && _d !== void 0 ? _d : false, xmlCharKey: (_e = serializerOptions.xmlCharKey) !== null && _e !== void 0 ? _e : XML_CHARKEY, }; const xmlCharKey = serializerOptions.xmlCharKey; if (operationSpec.requestBody && operationSpec.requestBody.mapper) { httpRequest.body = getOperationArgumentValueFromParameter(serviceClient, operationArguments, operationSpec.requestBody, operationSpec.serializer); const bodyMapper = operationSpec.requestBody.mapper; const { required, xmlName, xmlElementName, serializedName, xmlNamespace, xmlNamespacePrefix } = bodyMapper; const typeName = bodyMapper.type.name; try { if ((httpRequest.body !== undefined && httpRequest.body !== null) || required) { const requestBodyParameterPathString = getPathStringFromParameter(operationSpec.requestBody); httpRequest.body = operationSpec.serializer.serialize(bodyMapper, httpRequest.body, requestBodyParameterPathString, updatedOptions); const isStream = typeName === MapperType.Stream; if (operationSpec.isXML) { const xmlnsKey = xmlNamespacePrefix ? `xmlns:${xmlNamespacePrefix}` : "xmlns"; const value = getXmlValueWithNamespace(xmlNamespace, xmlnsKey, typeName, httpRequest.body, updatedOptions); if (typeName === MapperType.Sequence) { httpRequest.body = stringifyXML(prepareXMLRootList(value, xmlElementName || xmlName || serializedName, xmlnsKey, xmlNamespace), { rootName: xmlName || serializedName, xmlCharKey, }); } else if (!isStream) { httpRequest.body = stringifyXML(value, { rootName: xmlName || serializedName, xmlCharKey, }); } } else if (typeName === MapperType.String && (((_f = operationSpec.contentType) === null || _f === void 0 ? void 0 : _f.match("text/plain")) || operationSpec.mediaType === "text")) { // the String serializer has validated that request body is a string // so just send the string. return; } else if (!isStream) { httpRequest.body = JSON.stringify(httpRequest.body); } } } catch (error) { throw new Error(`Error "${error.message}" occurred in serializing the payload - ${JSON.stringify(serializedName, undefined, " ")}.`); } } else if (operationSpec.formDataParameters && operationSpec.formDataParameters.length > 0) { httpRequest.formData = {}; for (const formDataParameter of operationSpec.formDataParameters) { const formDataParameterValue = getOperationArgumentValueFromParameter(serviceClient, operationArguments, formDataParameter, operationSpec.serializer); if (formDataParameterValue !== undefined && formDataParameterValue !== null) { const formDataParameterPropertyName = formDataParameter.mapper.serializedName || getPathStringFromParameter(formDataParameter); httpRequest.formData[formDataParameterPropertyName] = operationSpec.serializer.serialize(formDataParameter.mapper, formDataParameterValue, getPathStringFromParameter(formDataParameter), updatedOptions); } } } } /** * Adds an xml namespace to the xml serialized object if needed, otherwise it just returns the value itself */ function getXmlValueWithNamespace(xmlNamespace, xmlnsKey, typeName, serializedValue, options) { // Composite and Sequence schemas already got their root namespace set during serialization // We just need to add xmlns to the other schema types if (xmlNamespace && !["Composite", "Sequence", "Dictionary"].includes(typeName)) { const result = {}; result[options.xmlCharKey] = serializedValue; result[XML_ATTRKEY] = { [xmlnsKey]: xmlNamespace }; return result; } return serializedValue; } function getValueOrFunctionResult(value, defaultValueCreator) { let result; if (typeof value === "string") { result = value; } else { result = defaultValueCreator(); if (typeof value === "function") { result = value(result); } } return result; } function createDefaultRequestPolicyFactories(authPolicyFactory, options) { const factories = []; if (options.generateClientRequestIdHeader) { factories.push(generateClientRequestIdPolicy(options.clientRequestIdHeaderName)); } if (authPolicyFactory) { factories.push(authPolicyFactory); } const userAgentHeaderName = getValueOrFunctionResult(options.userAgentHeaderName, getDefaultUserAgentHeaderName); const userAgentHeaderValue = getValueOrFunctionResult(options.userAgent, getDefaultUserAgentValue); if (userAgentHeaderName && userAgentHeaderValue) { factories.push(userAgentPolicy({ key: userAgentHeaderName, value: userAgentHeaderValue })); } factories.push(redirectPolicy()); factories.push(rpRegistrationPolicy(options.rpRegistrationRetryTimeout)); if (!options.noRetryPolicy) { factories.push(exponentialRetryPolicy()); factories.push(systemErrorRetryPolicy()); factories.push(throttlingRetryPolicy()); } factories.push(deserializationPolicy(options.deserializationContentTypes)); if (isNode) { factories.push(proxyPolicy(options.proxySettings)); } factories.push(logPolicy({ logger: logger.info })); return factories; } /** * Creates an HTTP pipeline based on the given options. * @param pipelineOptions - Defines options that are used to configure policies in the HTTP pipeline for an SDK client. * @param authPolicyFactory - An optional authentication policy factory to use for signing requests. * @returns A set of options that can be passed to create a new {@link ServiceClient}. */ function createPipelineFromOptions(pipelineOptions, authPolicyFactory) { const requestPolicyFactories = []; if (pipelineOptions.sendStreamingJson) { requestPolicyFactories.push(ndJsonPolicy()); } let userAgentValue = undefined; if (pipelineOptions.userAgentOptions && pipelineOptions.userAgentOptions.userAgentPrefix) { const userAgentInfo = []; userAgentInfo.push(pipelineOptions.userAgentOptions.userAgentPrefix); // Add the default user agent value if it isn't already specified // by the userAgentPrefix option. const defaultUserAgentInfo = getDefaultUserAgentValue(); if (userAgentInfo.indexOf(defaultUserAgentInfo) === -1) { userAgentInfo.push(defaultUserAgentInfo); } userAgentValue = userAgentInfo.join(" "); } const keepAliveOptions = Object.assign(Object.assign({}, DefaultKeepAliveOptions), pipelineOptions.keepAliveOptions); const retryOptions = Object.assign(Object.assign({}, DefaultRetryOptions), pipelineOptions.retryOptions); const redirectOptions = Object.assign(Object.assign({}, DefaultRedirectOptions), pipelineOptions.redirectOptions); if (isNode) { requestPolicyFactories.push(proxyPolicy(pipelineOptions.proxyOptions)); } const deserializationOptions = Object.assign(Object.assign({}, DefaultDeserializationOptions), pipelineOptions.deserializationOptions); const loggingOptions = Object.assign({}, pipelineOptions.loggingOptions); requestPolicyFactories.push(tracingPolicy({ userAgent: userAgentValue }), keepAlivePolicy(keepAliveOptions), userAgentPolicy({ value: userAgentValue }), generateClientRequestIdPolicy(), deserializationPolicy(deserializationOptions.expectedContentTypes), throttlingRetryPolicy(), systemErrorRetryPolicy(), exponentialRetryPolicy(retryOptions.maxRetries, retryOptions.retryDelayInMs, retryOptions.maxRetryDelayInMs)); if (redirectOptions.handleRedirects) { requestPolicyFactories.push(redirectPolicy(redirectOptions.maxRetries)); } if (authPolicyFactory) { requestPolicyFactories.push(authPolicyFactory); } requestPolicyFactories.push(logPolicy(loggingOptions)); if (isNode && pipelineOptions.decompressResponse === false) { requestPolicyFactories.push(disableResponseDecompressionPolicy()); } return { httpClient: pipelineOptions.httpClient, requestPolicyFactories, }; } function getOperationArgumentValueFromParameter(serviceClient, operationArguments, parameter, serializer) { return getOperationArgumentValueFromParameterPath(serviceClient, operationArguments, parameter.parameterPath, parameter.mapper, serializer); } function getOperationArgumentValueFromParameterPath(serviceClient, operationArguments, parameterPath, parameterMapper, serializer) { var _a; let value; if (typeof parameterPath === "string") { parameterPath = [parameterPath]; } const serializerOptions = (_a = operationArguments.options) === null || _a === void 0 ? void 0 : _a.serializerOptions; if (Array.isArray(parameterPath)) { if (parameterPath.length > 0) { if (parameterMapper.isConstant) { value = parameterMapper.defaultValue; } else { let propertySearchResult = getPropertyFromParameterPath(operationArguments, parameterPath); if (!propertySearchResult.propertyFound) { propertySearchResult = getPropertyFromParameterPath(serviceClient, parameterPath); } let useDefaultValue = false; if (!propertySearchResult.propertyFound) { useDefaultValue = parameterMapper.required || (parameterPath[0] === "options" && parameterPath.length === 2); } value = useDefaultValue ? parameterMapper.defaultValue : propertySearchResult.propertyValue; } // Serialize just for validation purposes. const parameterPathString = getPathStringFromParameterPath(parameterPath, parameterMapper); serializer.serialize(parameterMapper, value, parameterPathString, serializerOptions); } } else { if (parameterMapper.required) { value = {}; } for (const propertyName in parameterPath) { const propertyMapper = parameterMapper.type.modelProperties[propertyName]; const propertyPath = parameterPath[propertyName]; const propertyValue = getOperationArgumentValueFromParameterPath(serviceClient, operationArguments, propertyPath, propertyMapper, serializer); // Serialize just for validation purposes. const propertyPathString = getPathStringFromParameterPath(propertyPath, propertyMapper); serializer.serialize(propertyMapper, propertyValue, propertyPathString, serializerOptions); if (propertyValue !== undefined && propertyValue !== null) { if (!value) { value = {}; } value[propertyName] = propertyValue; } } } return value; } function getPropertyFromParameterPath(parent, parameterPath) { const result = { propertyFound: false }; let i = 0; for (; i < parameterPath.length; ++i) { const parameterPathPart = parameterPath[i]; // Make sure to check inherited properties too, so don't use hasOwnProperty(). if (parent !== undefined && parent !== null && parameterPathPart in parent) { parent = parent[parameterPathPart]; } else { break; } } if (i === parameterPath.length) { result.propertyValue = parent; result.propertyFound = true; } return result; } /** * Parses an {@link HttpOperationResponse} into a normalized HTTP response object ({@link RestResponse}). * @param _response - Wrapper object for http response. * @param responseSpec - Mappers for how to parse the response properties. * @returns - A normalized response object. */ function flattenResponse(_response, responseSpec) { const parsedHeaders = _response.parsedHeaders; const bodyMapper = responseSpec && responseSpec.bodyMapper; const addOperationResponse = (obj) => { return Object.defineProperty(obj, "_response", { value: _response, }); }; if (bodyMapper) { const typeName = bodyMapper.type.name; if (typeName === "Stream") { return addOperationResponse(Object.assign(Object.assign({}, parsedHeaders), { blobBody: _response.blobBody, readableStreamBody: _response.readableStreamBody })); } const modelProperties = (typeName === "Composite" && bodyMapper.type.modelProperties) || {}; const isPageableResponse = Object.keys(modelProperties).some((k) => modelProperties[k].serializedName === ""); if (typeName === "Sequence" || isPageableResponse) { const arrayResponse = [...(_response.parsedBody || [])]; for (const key of Object.keys(modelProperties)) { if (modelProperties[key].serializedName) { arrayResponse[key] = _response.parsedBody[key]; } } if (parsedHeaders) { for (const key of Object.keys(parsedHeaders)) { arrayResponse[key] = parsedHeaders[key]; } } addOperationResponse(arrayResponse); return arrayResponse; } if (typeName === "Composite" || typeName === "Dictionary") { return addOperationResponse(Object.assign(Object.assign({}, parsedHeaders), _response.parsedBody)); } } if (bodyMapper || _response.request.method === "HEAD" || isPrimitiveType(_response.parsedBody)) { // primitive body types and HEAD booleans return addOperationResponse(Object.assign(Object.assign({}, parsedHeaders), { body: _response.parsedBody })); } return addOperationResponse(Object.assign(Object.assign({}, parsedHeaders), _response.parsedBody)); } function getCredentialScopes(options, baseUri) { if (options === null || options === void 0 ? void 0 : options.credentialScopes) { const scopes = options.credentialScopes; return Array.isArray(scopes) ? scopes.map((scope) => new URL(scope).toString()) : new URL(scopes).toString(); } if (baseUri) { return `${baseUri}/.default`; } return undefined; } // Copyright (c) Microsoft Corporation. /** * This function is only here for compatibility. Use createSpanFunction in core-tracing. * * @deprecated This function is only here for compatibility. Use createSpanFunction in core-tracing. * @hidden * @param spanConfig - The name of the operation being performed. * @param tracingOptions - The options for the underlying http request. */ function createSpanFunction(args) { return coreTracing.createSpanFunction(args); } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /** * Defines the default token refresh buffer duration. */ const TokenRefreshBufferMs = 2 * 60 * 1000; // 2 Minutes /** * Provides an {@link AccessTokenCache} implementation which clears * the cached {@link AccessToken}'s after the expiresOnTimestamp has * passed. * * @deprecated No longer used in the bearer authorization policy. */ class ExpiringAccessTokenCache { /** * Constructs an instance of {@link ExpiringAccessTokenCache} with * an optional expiration buffer time. */ constructor(tokenRefreshBufferMs = TokenRefreshBufferMs) { this.cachedToken = undefined; this.tokenRefreshBufferMs = tokenRefreshBufferMs; } /** * Saves an access token into the internal in-memory cache. * @param accessToken - Access token or undefined to clear the cache. */ setCachedToken(accessToken) { this.cachedToken = accessToken; } /** * Returns the cached access token, or `undefined` if one is not cached or the cached one is expiring soon. */ getCachedToken() { if (this.cachedToken && Date.now() + this.tokenRefreshBufferMs >= this.cachedToken.expiresOnTimestamp) { this.cachedToken = undefined; } return this.cachedToken; } } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /** * Helps the core-http token authentication policies with requesting a new token if we're not currently waiting for a new token. * * @deprecated No longer used in the bearer authorization policy. */ class AccessTokenRefresher { constructor(credential, scopes, requiredMillisecondsBeforeNewRefresh = 30000) { this.credential = credential; this.scopes = scopes; this.requiredMillisecondsBeforeNewRefresh = requiredMillisecondsBeforeNewRefresh; this.lastCalled = 0; } /** * Returns true if the required milliseconds(defaulted to 30000) have been passed signifying * that we are ready for a new refresh. */ isReady() { // We're only ready for a new refresh if the required milliseconds have passed. return (!this.lastCalled || Date.now() - this.lastCalled > this.requiredMillisecondsBeforeNewRefresh); } /** * Stores the time in which it is called, * then requests a new token, * then sets this.promise to undefined, * then returns the token. */ async getToken(options) { this.lastCalled = Date.now(); const token = await this.credential.getToken(this.scopes, options); this.promise = undefined; return token || undefined; } /** * Requests a new token if we're not currently waiting for a new token. * Returns null if the required time between each call hasn't been reached. */ refresh(options) { if (!this.promise) { this.promise = this.getToken(options); } return this.promise; } } // Copyright (c) Microsoft Corporation. const HeaderConstants = Constants.HeaderConstants; const DEFAULT_AUTHORIZATION_SCHEME = "Basic"; /** * A simple {@link ServiceClientCredential} that authenticates with a username and a password. */ class BasicAuthenticationCredentials { /** * Creates a new BasicAuthenticationCredentials object. * * @param userName - User name. * @param password - Password. * @param authorizationScheme - The authorization scheme. */ constructor(userName, password, authorizationScheme = DEFAULT_AUTHORIZATION_SCHEME) { /** * Authorization scheme. Defaults to "Basic". * More information about authorization schemes is available here: https://developer.mozilla.org/docs/Web/HTTP/Authentication#authentication_schemes */ this.authorizationScheme = DEFAULT_AUTHORIZATION_SCHEME; if (userName === null || userName === undefined || typeof userName.valueOf() !== "string") { throw new Error("userName cannot be null or undefined and must be of type string."); } if (password === null || password === undefined || typeof password.valueOf() !== "string") { throw new Error("password cannot be null or undefined and must be of type string."); } this.userName = userName; this.password = password; this.authorizationScheme = authorizationScheme; } /** * Signs a request with the Authentication header. * * @param webResource - The WebResourceLike to be signed. * @returns The signed request object. */ signRequest(webResource) { const credentials = `${this.userName}:${this.password}`; const encodedCredentials = `${this.authorizationScheme} ${encodeString(credentials)}`; if (!webResource.headers) webResource.headers = new HttpHeaders(); webResource.headers.set(HeaderConstants.AUTHORIZATION, encodedCredentials); return Promise.resolve(webResource); } } // Copyright (c) Microsoft Corporation. /** * Authenticates to a service using an API key. */ class ApiKeyCredentials { /** * @param options - Specifies the options to be provided for auth. Either header or query needs to be provided. */ constructor(options) { if (!options || (options && !options.inHeader && !options.inQuery)) { throw new Error(`options cannot be null or undefined. Either "inHeader" or "inQuery" property of the options object needs to be provided.`); } this.inHeader = options.inHeader; this.inQuery = options.inQuery; } /** * Signs a request with the values provided in the inHeader and inQuery parameter. * * @param webResource - The WebResourceLike to be signed. * @returns The signed request object. */ signRequest(webResource) { if (!webResource) { return Promise.reject(new Error(`webResource cannot be null or undefined and must be of type "object".`)); } if (this.inHeader) { if (!webResource.headers) { webResource.headers = new HttpHeaders(); } for (const headerName in this.inHeader) { webResource.headers.set(headerName, this.inHeader[headerName]); } } if (this.inQuery) { if (!webResource.url) { return Promise.reject(new Error(`url cannot be null in the request object.`)); } if (webResource.url.indexOf("?") < 0) { webResource.url += "?"; } for (const key in this.inQuery) { if (!webResource.url.endsWith("?")) { webResource.url += "&"; } webResource.url += `${key}=${this.inQuery[key]}`; } } return Promise.resolve(webResource); } } // Copyright (c) Microsoft Corporation. /** * A {@link TopicCredentials} object used for Azure Event Grid. */ class TopicCredentials extends ApiKeyCredentials { /** * Creates a new EventGrid TopicCredentials object. * * @param topicKey - The EventGrid topic key */ constructor(topicKey) { if (!topicKey || (topicKey && typeof topicKey !== "string")) { throw new Error("topicKey cannot be null or undefined and must be of type string."); } const options = { inHeader: { "aeg-sas-key": topicKey, }, }; super(options); } } Object.defineProperty(exports, "delay", ({ enumerable: true, get: function () { return coreUtil.delay; } })); Object.defineProperty(exports, "isTokenCredential", ({ enumerable: true, get: function () { return coreAuth.isTokenCredential; } })); exports.AccessTokenRefresher = AccessTokenRefresher; exports.ApiKeyCredentials = ApiKeyCredentials; exports.BaseRequestPolicy = BaseRequestPolicy; exports.BasicAuthenticationCredentials = BasicAuthenticationCredentials; exports.Constants = Constants; exports.DefaultHttpClient = NodeFetchHttpClient; exports.ExpiringAccessTokenCache = ExpiringAccessTokenCache; exports.HttpHeaders = HttpHeaders; exports.MapperType = MapperType; exports.RequestPolicyOptions = RequestPolicyOptions; exports.RestError = RestError; exports.Serializer = Serializer; exports.ServiceClient = ServiceClient; exports.TopicCredentials = TopicCredentials; exports.URLBuilder = URLBuilder; exports.URLQuery = URLQuery; exports.WebResource = WebResource; exports.XML_ATTRKEY = XML_ATTRKEY; exports.XML_CHARKEY = XML_CHARKEY; exports.applyMixins = applyMixins; exports.bearerTokenAuthenticationPolicy = bearerTokenAuthenticationPolicy; exports.createPipelineFromOptions = createPipelineFromOptions; exports.createSpanFunction = createSpanFunction; exports.deserializationPolicy = deserializationPolicy; exports.deserializeResponseBody = deserializeResponseBody; exports.disableResponseDecompressionPolicy = disableResponseDecompressionPolicy; exports.encodeUri = encodeUri; exports.executePromisesSequentially = executePromisesSequentially; exports.exponentialRetryPolicy = exponentialRetryPolicy; exports.flattenResponse = flattenResponse; exports.generateClientRequestIdPolicy = generateClientRequestIdPolicy; exports.generateUuid = generateUuid; exports.getDefaultProxySettings = getDefaultProxySettings; exports.getDefaultUserAgentValue = getDefaultUserAgentValue; exports.isDuration = isDuration; exports.isNode = isNode; exports.isValidUuid = isValidUuid; exports.keepAlivePolicy = keepAlivePolicy; exports.logPolicy = logPolicy; exports.operationOptionsToRequestOptionsBase = operationOptionsToRequestOptionsBase; exports.parseXML = parseXML; exports.promiseToCallback = promiseToCallback; exports.promiseToServiceCallback = promiseToServiceCallback; exports.proxyPolicy = proxyPolicy; exports.redirectPolicy = redirectPolicy; exports.serializeObject = serializeObject; exports.signingPolicy = signingPolicy; exports.stringifyXML = stringifyXML; exports.stripRequest = stripRequest; exports.stripResponse = stripResponse; exports.systemErrorRetryPolicy = systemErrorRetryPolicy; exports.throttlingRetryPolicy = throttlingRetryPolicy; exports.tracingPolicy = tracingPolicy; exports.userAgentPolicy = userAgentPolicy; //# sourceMappingURL=index.js.map /***/ }), /***/ 46279: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { var CombinedStream = __nccwpck_require__(85443); var util = __nccwpck_require__(73837); var path = __nccwpck_require__(71017); var http = __nccwpck_require__(13685); var https = __nccwpck_require__(95687); var parseUrl = (__nccwpck_require__(57310).parse); var fs = __nccwpck_require__(57147); var Stream = (__nccwpck_require__(12781).Stream); var mime = __nccwpck_require__(43583); var asynckit = __nccwpck_require__(14812); var populate = __nccwpck_require__(63971); // Public API module.exports = FormData; // make it a Stream util.inherits(FormData, CombinedStream); /** * Create readable "multipart/form-data" streams. * Can be used to submit forms * and file uploads to other web applications. * * @constructor * @param {Object} options - Properties to be added/overriden for FormData and CombinedStream */ function FormData(options) { if (!(this instanceof FormData)) { return new FormData(options); } this._overheadLength = 0; this._valueLength = 0; this._valuesToMeasure = []; CombinedStream.call(this); options = options || {}; for (var option in options) { this[option] = options[option]; } } FormData.LINE_BREAK = '\r\n'; FormData.DEFAULT_CONTENT_TYPE = 'application/octet-stream'; FormData.prototype.append = function(field, value, options) { options = options || {}; // allow filename as single option if (typeof options == 'string') { options = {filename: options}; } var append = CombinedStream.prototype.append.bind(this); // all that streamy business can't handle numbers if (typeof value == 'number') { value = '' + value; } // https://github.com/felixge/node-form-data/issues/38 if (util.isArray(value)) { // Please convert your array into string // the way web server expects it this._error(new Error('Arrays are not supported.')); return; } var header = this._multiPartHeader(field, value, options); var footer = this._multiPartFooter(); append(header); append(value); append(footer); // pass along options.knownLength this._trackLength(header, value, options); }; FormData.prototype._trackLength = function(header, value, options) { var valueLength = 0; // used w/ getLengthSync(), when length is known. // e.g. for streaming directly from a remote server, // w/ a known file a size, and not wanting to wait for // incoming file to finish to get its size. if (options.knownLength != null) { valueLength += +options.knownLength; } else if (Buffer.isBuffer(value)) { valueLength = value.length; } else if (typeof value === 'string') { valueLength = Buffer.byteLength(value); } this._valueLength += valueLength; // @check why add CRLF? does this account for custom/multiple CRLFs? this._overheadLength += Buffer.byteLength(header) + FormData.LINE_BREAK.length; // empty or either doesn't have path or not an http response or not a stream if (!value || ( !value.path && !(value.readable && value.hasOwnProperty('httpVersion')) && !(value instanceof Stream))) { return; } // no need to bother with the length if (!options.knownLength) { this._valuesToMeasure.push(value); } }; FormData.prototype._lengthRetriever = function(value, callback) { if (value.hasOwnProperty('fd')) { // take read range into a account // `end` = Infinity –> read file till the end // // TODO: Looks like there is bug in Node fs.createReadStream // it doesn't respect `end` options without `start` options // Fix it when node fixes it. // https://github.com/joyent/node/issues/7819 if (value.end != undefined && value.end != Infinity && value.start != undefined) { // when end specified // no need to calculate range // inclusive, starts with 0 callback(null, value.end + 1 - (value.start ? value.start : 0)); // not that fast snoopy } else { // still need to fetch file size from fs fs.stat(value.path, function(err, stat) { var fileSize; if (err) { callback(err); return; } // update final size based on the range options fileSize = stat.size - (value.start ? value.start : 0); callback(null, fileSize); }); } // or http response } else if (value.hasOwnProperty('httpVersion')) { callback(null, +value.headers['content-length']); // or request stream http://github.com/mikeal/request } else if (value.hasOwnProperty('httpModule')) { // wait till response come back value.on('response', function(response) { value.pause(); callback(null, +response.headers['content-length']); }); value.resume(); // something else } else { callback('Unknown stream'); } }; FormData.prototype._multiPartHeader = function(field, value, options) { // custom header specified (as string)? // it becomes responsible for boundary // (e.g. to handle extra CRLFs on .NET servers) if (typeof options.header == 'string') { return options.header; } var contentDisposition = this._getContentDisposition(value, options); var contentType = this._getContentType(value, options); var contents = ''; var headers = { // add custom disposition as third element or keep it two elements if not 'Content-Disposition': ['form-data', 'name="' + field + '"'].concat(contentDisposition || []), // if no content type. allow it to be empty array 'Content-Type': [].concat(contentType || []) }; // allow custom headers. if (typeof options.header == 'object') { populate(headers, options.header); } var header; for (var prop in headers) { if (!headers.hasOwnProperty(prop)) continue; header = headers[prop]; // skip nullish headers. if (header == null) { continue; } // convert all headers to arrays. if (!Array.isArray(header)) { header = [header]; } // add non-empty headers. if (header.length) { contents += prop + ': ' + header.join('; ') + FormData.LINE_BREAK; } } return '--' + this.getBoundary() + FormData.LINE_BREAK + contents + FormData.LINE_BREAK; }; FormData.prototype._getContentDisposition = function(value, options) { var filename , contentDisposition ; if (typeof options.filepath === 'string') { // custom filepath for relative paths filename = path.normalize(options.filepath).replace(/\\/g, '/'); } else if (options.filename || value.name || value.path) { // custom filename take precedence // formidable and the browser add a name property // fs- and request- streams have path property filename = path.basename(options.filename || value.name || value.path); } else if (value.readable && value.hasOwnProperty('httpVersion')) { // or try http response filename = path.basename(value.client._httpMessage.path || ''); } if (filename) { contentDisposition = 'filename="' + filename + '"'; } return contentDisposition; }; FormData.prototype._getContentType = function(value, options) { // use custom content-type above all var contentType = options.contentType; // or try `name` from formidable, browser if (!contentType && value.name) { contentType = mime.lookup(value.name); } // or try `path` from fs-, request- streams if (!contentType && value.path) { contentType = mime.lookup(value.path); } // or if it's http-reponse if (!contentType && value.readable && value.hasOwnProperty('httpVersion')) { contentType = value.headers['content-type']; } // or guess it from the filepath or filename if (!contentType && (options.filepath || options.filename)) { contentType = mime.lookup(options.filepath || options.filename); } // fallback to the default content type if `value` is not simple value if (!contentType && typeof value == 'object') { contentType = FormData.DEFAULT_CONTENT_TYPE; } return contentType; }; FormData.prototype._multiPartFooter = function() { return function(next) { var footer = FormData.LINE_BREAK; var lastPart = (this._streams.length === 0); if (lastPart) { footer += this._lastBoundary(); } next(footer); }.bind(this); }; FormData.prototype._lastBoundary = function() { return '--' + this.getBoundary() + '--' + FormData.LINE_BREAK; }; FormData.prototype.getHeaders = function(userHeaders) { var header; var formHeaders = { 'content-type': 'multipart/form-data; boundary=' + this.getBoundary() }; for (header in userHeaders) { if (userHeaders.hasOwnProperty(header)) { formHeaders[header.toLowerCase()] = userHeaders[header]; } } return formHeaders; }; FormData.prototype.setBoundary = function(boundary) { this._boundary = boundary; }; FormData.prototype.getBoundary = function() { if (!this._boundary) { this._generateBoundary(); } return this._boundary; }; FormData.prototype.getBuffer = function() { var dataBuffer = new Buffer.alloc( 0 ); var boundary = this.getBoundary(); // Create the form content. Add Line breaks to the end of data. for (var i = 0, len = this._streams.length; i < len; i++) { if (typeof this._streams[i] !== 'function') { // Add content to the buffer. if(Buffer.isBuffer(this._streams[i])) { dataBuffer = Buffer.concat( [dataBuffer, this._streams[i]]); }else { dataBuffer = Buffer.concat( [dataBuffer, Buffer.from(this._streams[i])]); } // Add break after content. if (typeof this._streams[i] !== 'string' || this._streams[i].substring( 2, boundary.length + 2 ) !== boundary) { dataBuffer = Buffer.concat( [dataBuffer, Buffer.from(FormData.LINE_BREAK)] ); } } } // Add the footer and return the Buffer object. return Buffer.concat( [dataBuffer, Buffer.from(this._lastBoundary())] ); }; FormData.prototype._generateBoundary = function() { // This generates a 50 character boundary similar to those used by Firefox. // They are optimized for boyer-moore parsing. var boundary = '--------------------------'; for (var i = 0; i < 24; i++) { boundary += Math.floor(Math.random() * 10).toString(16); } this._boundary = boundary; }; // Note: getLengthSync DOESN'T calculate streams length // As workaround one can calculate file size manually // and add it as knownLength option FormData.prototype.getLengthSync = function() { var knownLength = this._overheadLength + this._valueLength; // Don't get confused, there are 3 "internal" streams for each keyval pair // so it basically checks if there is any value added to the form if (this._streams.length) { knownLength += this._lastBoundary().length; } // https://github.com/form-data/form-data/issues/40 if (!this.hasKnownLength()) { // Some async length retrievers are present // therefore synchronous length calculation is false. // Please use getLength(callback) to get proper length this._error(new Error('Cannot calculate proper length in synchronous way.')); } return knownLength; }; // Public API to check if length of added values is known // https://github.com/form-data/form-data/issues/196 // https://github.com/form-data/form-data/issues/262 FormData.prototype.hasKnownLength = function() { var hasKnownLength = true; if (this._valuesToMeasure.length) { hasKnownLength = false; } return hasKnownLength; }; FormData.prototype.getLength = function(cb) { var knownLength = this._overheadLength + this._valueLength; if (this._streams.length) { knownLength += this._lastBoundary().length; } if (!this._valuesToMeasure.length) { process.nextTick(cb.bind(this, null, knownLength)); return; } asynckit.parallel(this._valuesToMeasure, this._lengthRetriever, function(err, values) { if (err) { cb(err); return; } values.forEach(function(length) { knownLength += length; }); cb(null, knownLength); }); }; FormData.prototype.submit = function(params, cb) { var request , options , defaults = {method: 'post'} ; // parse provided url if it's string // or treat it as options object if (typeof params == 'string') { params = parseUrl(params); options = populate({ port: params.port, path: params.pathname, host: params.hostname, protocol: params.protocol }, defaults); // use custom params } else { options = populate(params, defaults); // if no port provided use default one if (!options.port) { options.port = options.protocol == 'https:' ? 443 : 80; } } // put that good code in getHeaders to some use options.headers = this.getHeaders(params.headers); // https if specified, fallback to http in any other case if (options.protocol == 'https:') { request = https.request(options); } else { request = http.request(options); } // get content length and fire away this.getLength(function(err, length) { if (err && err !== 'Unknown stream') { this._error(err); return; } // add content length if (length) { request.setHeader('Content-Length', length); } this.pipe(request); if (cb) { var onResponse; var callback = function (error, responce) { request.removeListener('error', callback); request.removeListener('response', onResponse); return cb.call(this, error, responce); }; onResponse = callback.bind(this, null); request.on('error', callback); request.on('response', onResponse); } }.bind(this)); return request; }; FormData.prototype._error = function(err) { if (!this.error) { this.error = err; this.pause(); this.emit('error', err); } }; FormData.prototype.toString = function () { return '[object FormData]'; }; /***/ }), /***/ 63971: /***/ ((module) => { // populates missing values module.exports = function(dst, src) { Object.keys(src).forEach(function(prop) { dst[prop] = dst[prop] || src[prop]; }); return dst; }; /***/ }), /***/ 82107: /***/ ((module) => { /****************************************************************************** Copyright (c) Microsoft Corporation. Permission to use, copy, modify, and/or distribute this software for any purpose with or without fee is hereby granted. THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ***************************************************************************** */ /* global global, define, System, Reflect, Promise */ var __extends; var __assign; var __rest; var __decorate; var __param; var __esDecorate; var __runInitializers; var __propKey; var __setFunctionName; var __metadata; var __awaiter; var __generator; var __exportStar; var __values; var __read; var __spread; var __spreadArrays; var __spreadArray; var __await; var __asyncGenerator; var __asyncDelegator; var __asyncValues; var __makeTemplateObject; var __importStar; var __importDefault; var __classPrivateFieldGet; var __classPrivateFieldSet; var __classPrivateFieldIn; var __createBinding; (function (factory) { var root = typeof global === "object" ? global : typeof self === "object" ? self : typeof this === "object" ? this : {}; if (typeof define === "function" && define.amd) { define("tslib", ["exports"], function (exports) { factory(createExporter(root, createExporter(exports))); }); } else if ( true && typeof module.exports === "object") { factory(createExporter(root, createExporter(module.exports))); } else { factory(createExporter(root)); } function createExporter(exports, previous) { if (exports !== root) { if (typeof Object.create === "function") { Object.defineProperty(exports, "__esModule", { value: true }); } else { exports.__esModule = true; } } return function (id, v) { return exports[id] = previous ? previous(id, v) : v; }; } }) (function (exporter) { var extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (Object.prototype.hasOwnProperty.call(b, p)) d[p] = b[p]; }; __extends = function (d, b) { if (typeof b !== "function" && b !== null) throw new TypeError("Class extends value " + String(b) + " is not a constructor or null"); extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; __assign = Object.assign || function (t) { for (var s, i = 1, n = arguments.length; i < n; i++) { s = arguments[i]; for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p)) t[p] = s[p]; } return t; }; __rest = function (s, e) { var t = {}; for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p) && e.indexOf(p) < 0) t[p] = s[p]; if (s != null && typeof Object.getOwnPropertySymbols === "function") for (var i = 0, p = Object.getOwnPropertySymbols(s); i < p.length; i++) { if (e.indexOf(p[i]) < 0 && Object.prototype.propertyIsEnumerable.call(s, p[i])) t[p[i]] = s[p[i]]; } return t; }; __decorate = function (decorators, target, key, desc) { var c = arguments.length, r = c < 3 ? target : desc === null ? desc = Object.getOwnPropertyDescriptor(target, key) : desc, d; if (typeof Reflect === "object" && typeof Reflect.decorate === "function") r = Reflect.decorate(decorators, target, key, desc); else for (var i = decorators.length - 1; i >= 0; i--) if (d = decorators[i]) r = (c < 3 ? d(r) : c > 3 ? d(target, key, r) : d(target, key)) || r; return c > 3 && r && Object.defineProperty(target, key, r), r; }; __param = function (paramIndex, decorator) { return function (target, key) { decorator(target, key, paramIndex); } }; __esDecorate = function (ctor, descriptorIn, decorators, contextIn, initializers, extraInitializers) { function accept(f) { if (f !== void 0 && typeof f !== "function") throw new TypeError("Function expected"); return f; } var kind = contextIn.kind, key = kind === "getter" ? "get" : kind === "setter" ? "set" : "value"; var target = !descriptorIn && ctor ? contextIn["static"] ? ctor : ctor.prototype : null; var descriptor = descriptorIn || (target ? Object.getOwnPropertyDescriptor(target, contextIn.name) : {}); var _, done = false; for (var i = decorators.length - 1; i >= 0; i--) { var context = {}; for (var p in contextIn) context[p] = p === "access" ? {} : contextIn[p]; for (var p in contextIn.access) context.access[p] = contextIn.access[p]; context.addInitializer = function (f) { if (done) throw new TypeError("Cannot add initializers after decoration has completed"); extraInitializers.push(accept(f || null)); }; var result = (0, decorators[i])(kind === "accessor" ? { get: descriptor.get, set: descriptor.set } : descriptor[key], context); if (kind === "accessor") { if (result === void 0) continue; if (result === null || typeof result !== "object") throw new TypeError("Object expected"); if (_ = accept(result.get)) descriptor.get = _; if (_ = accept(result.set)) descriptor.set = _; if (_ = accept(result.init)) initializers.push(_); } else if (_ = accept(result)) { if (kind === "field") initializers.push(_); else descriptor[key] = _; } } if (target) Object.defineProperty(target, contextIn.name, descriptor); done = true; }; __runInitializers = function (thisArg, initializers, value) { var useValue = arguments.length > 2; for (var i = 0; i < initializers.length; i++) { value = useValue ? initializers[i].call(thisArg, value) : initializers[i].call(thisArg); } return useValue ? value : void 0; }; __propKey = function (x) { return typeof x === "symbol" ? x : "".concat(x); }; __setFunctionName = function (f, name, prefix) { if (typeof name === "symbol") name = name.description ? "[".concat(name.description, "]") : ""; return Object.defineProperty(f, "name", { configurable: true, value: prefix ? "".concat(prefix, " ", name) : name }); }; __metadata = function (metadataKey, metadataValue) { if (typeof Reflect === "object" && typeof Reflect.metadata === "function") return Reflect.metadata(metadataKey, metadataValue); }; __awaiter = function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; __generator = function (thisArg, body) { var _ = { label: 0, sent: function() { if (t[0] & 1) throw t[1]; return t[1]; }, trys: [], ops: [] }, f, y, t, g; return g = { next: verb(0), "throw": verb(1), "return": verb(2) }, typeof Symbol === "function" && (g[Symbol.iterator] = function() { return this; }), g; function verb(n) { return function (v) { return step([n, v]); }; } function step(op) { if (f) throw new TypeError("Generator is already executing."); while (g && (g = 0, op[0] && (_ = 0)), _) try { if (f = 1, y && (t = op[0] & 2 ? y["return"] : op[0] ? y["throw"] || ((t = y["return"]) && t.call(y), 0) : y.next) && !(t = t.call(y, op[1])).done) return t; if (y = 0, t) op = [op[0] & 2, t.value]; switch (op[0]) { case 0: case 1: t = op; break; case 4: _.label++; return { value: op[1], done: false }; case 5: _.label++; y = op[1]; op = [0]; continue; case 7: op = _.ops.pop(); _.trys.pop(); continue; default: if (!(t = _.trys, t = t.length > 0 && t[t.length - 1]) && (op[0] === 6 || op[0] === 2)) { _ = 0; continue; } if (op[0] === 3 && (!t || (op[1] > t[0] && op[1] < t[3]))) { _.label = op[1]; break; } if (op[0] === 6 && _.label < t[1]) { _.label = t[1]; t = op; break; } if (t && _.label < t[2]) { _.label = t[2]; _.ops.push(op); break; } if (t[2]) _.ops.pop(); _.trys.pop(); continue; } op = body.call(thisArg, _); } catch (e) { op = [6, e]; y = 0; } finally { f = t = 0; } if (op[0] & 5) throw op[1]; return { value: op[0] ? op[1] : void 0, done: true }; } }; __exportStar = function(m, o) { for (var p in m) if (p !== "default" && !Object.prototype.hasOwnProperty.call(o, p)) __createBinding(o, m, p); }; __createBinding = Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; var desc = Object.getOwnPropertyDescriptor(m, k); if (!desc || ("get" in desc ? !m.__esModule : desc.writable || desc.configurable)) { desc = { enumerable: true, get: function() { return m[k]; } }; } Object.defineProperty(o, k2, desc); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; }); __values = function (o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; __read = function (o, n) { var m = typeof Symbol === "function" && o[Symbol.iterator]; if (!m) return o; var i = m.call(o), r, ar = [], e; try { while ((n === void 0 || n-- > 0) && !(r = i.next()).done) ar.push(r.value); } catch (error) { e = { error: error }; } finally { try { if (r && !r.done && (m = i["return"])) m.call(i); } finally { if (e) throw e.error; } } return ar; }; /** @deprecated */ __spread = function () { for (var ar = [], i = 0; i < arguments.length; i++) ar = ar.concat(__read(arguments[i])); return ar; }; /** @deprecated */ __spreadArrays = function () { for (var s = 0, i = 0, il = arguments.length; i < il; i++) s += arguments[i].length; for (var r = Array(s), k = 0, i = 0; i < il; i++) for (var a = arguments[i], j = 0, jl = a.length; j < jl; j++, k++) r[k] = a[j]; return r; }; __spreadArray = function (to, from, pack) { if (pack || arguments.length === 2) for (var i = 0, l = from.length, ar; i < l; i++) { if (ar || !(i in from)) { if (!ar) ar = Array.prototype.slice.call(from, 0, i); ar[i] = from[i]; } } return to.concat(ar || Array.prototype.slice.call(from)); }; __await = function (v) { return this instanceof __await ? (this.v = v, this) : new __await(v); }; __asyncGenerator = function (thisArg, _arguments, generator) { if (!Symbol.asyncIterator) throw new TypeError("Symbol.asyncIterator is not defined."); var g = generator.apply(thisArg, _arguments || []), i, q = []; return i = {}, verb("next"), verb("throw"), verb("return"), i[Symbol.asyncIterator] = function () { return this; }, i; function verb(n) { if (g[n]) i[n] = function (v) { return new Promise(function (a, b) { q.push([n, v, a, b]) > 1 || resume(n, v); }); }; } function resume(n, v) { try { step(g[n](v)); } catch (e) { settle(q[0][3], e); } } function step(r) { r.value instanceof __await ? Promise.resolve(r.value.v).then(fulfill, reject) : settle(q[0][2], r); } function fulfill(value) { resume("next", value); } function reject(value) { resume("throw", value); } function settle(f, v) { if (f(v), q.shift(), q.length) resume(q[0][0], q[0][1]); } }; __asyncDelegator = function (o) { var i, p; return i = {}, verb("next"), verb("throw", function (e) { throw e; }), verb("return"), i[Symbol.iterator] = function () { return this; }, i; function verb(n, f) { i[n] = o[n] ? function (v) { return (p = !p) ? { value: __await(o[n](v)), done: false } : f ? f(v) : v; } : f; } }; __asyncValues = function (o) { if (!Symbol.asyncIterator) throw new TypeError("Symbol.asyncIterator is not defined."); var m = o[Symbol.asyncIterator], i; return m ? m.call(o) : (o = typeof __values === "function" ? __values(o) : o[Symbol.iterator](), i = {}, verb("next"), verb("throw"), verb("return"), i[Symbol.asyncIterator] = function () { return this; }, i); function verb(n) { i[n] = o[n] && function (v) { return new Promise(function (resolve, reject) { v = o[n](v), settle(resolve, reject, v.done, v.value); }); }; } function settle(resolve, reject, d, v) { Promise.resolve(v).then(function(v) { resolve({ value: v, done: d }); }, reject); } }; __makeTemplateObject = function (cooked, raw) { if (Object.defineProperty) { Object.defineProperty(cooked, "raw", { value: raw }); } else { cooked.raw = raw; } return cooked; }; var __setModuleDefault = Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }; __importStar = function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.prototype.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; __importDefault = function (mod) { return (mod && mod.__esModule) ? mod : { "default": mod }; }; __classPrivateFieldGet = function (receiver, state, kind, f) { if (kind === "a" && !f) throw new TypeError("Private accessor was defined without a getter"); if (typeof state === "function" ? receiver !== state || !f : !state.has(receiver)) throw new TypeError("Cannot read private member from an object whose class did not declare it"); return kind === "m" ? f : kind === "a" ? f.call(receiver) : f ? f.value : state.get(receiver); }; __classPrivateFieldSet = function (receiver, state, value, kind, f) { if (kind === "m") throw new TypeError("Private method is not writable"); if (kind === "a" && !f) throw new TypeError("Private accessor was defined without a setter"); if (typeof state === "function" ? receiver !== state || !f : !state.has(receiver)) throw new TypeError("Cannot write private member to an object whose class did not declare it"); return (kind === "a" ? f.call(receiver, value) : f ? f.value = value : state.set(receiver, value)), value; }; __classPrivateFieldIn = function (state, receiver) { if (receiver === null || (typeof receiver !== "object" && typeof receiver !== "function")) throw new TypeError("Cannot use 'in' operator on non-object"); return typeof state === "function" ? receiver === state : state.has(receiver); }; exporter("__extends", __extends); exporter("__assign", __assign); exporter("__rest", __rest); exporter("__decorate", __decorate); exporter("__param", __param); exporter("__esDecorate", __esDecorate); exporter("__runInitializers", __runInitializers); exporter("__propKey", __propKey); exporter("__setFunctionName", __setFunctionName); exporter("__metadata", __metadata); exporter("__awaiter", __awaiter); exporter("__generator", __generator); exporter("__exportStar", __exportStar); exporter("__createBinding", __createBinding); exporter("__values", __values); exporter("__read", __read); exporter("__spread", __spread); exporter("__spreadArrays", __spreadArrays); exporter("__spreadArray", __spreadArray); exporter("__await", __await); exporter("__asyncGenerator", __asyncGenerator); exporter("__asyncDelegator", __asyncDelegator); exporter("__asyncValues", __asyncValues); exporter("__makeTemplateObject", __makeTemplateObject); exporter("__importStar", __importStar); exporter("__importDefault", __importDefault); exporter("__classPrivateFieldGet", __classPrivateFieldGet); exporter("__classPrivateFieldSet", __classPrivateFieldSet); exporter("__classPrivateFieldIn", __classPrivateFieldIn); }); /***/ }), /***/ 43415: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); Object.defineProperty(exports, "v1", ({ enumerable: true, get: function () { return _v.default; } })); Object.defineProperty(exports, "v3", ({ enumerable: true, get: function () { return _v2.default; } })); Object.defineProperty(exports, "v4", ({ enumerable: true, get: function () { return _v3.default; } })); Object.defineProperty(exports, "v5", ({ enumerable: true, get: function () { return _v4.default; } })); Object.defineProperty(exports, "NIL", ({ enumerable: true, get: function () { return _nil.default; } })); Object.defineProperty(exports, "version", ({ enumerable: true, get: function () { return _version.default; } })); Object.defineProperty(exports, "validate", ({ enumerable: true, get: function () { return _validate.default; } })); Object.defineProperty(exports, "stringify", ({ enumerable: true, get: function () { return _stringify.default; } })); Object.defineProperty(exports, "parse", ({ enumerable: true, get: function () { return _parse.default; } })); var _v = _interopRequireDefault(__nccwpck_require__(14757)); var _v2 = _interopRequireDefault(__nccwpck_require__(19982)); var _v3 = _interopRequireDefault(__nccwpck_require__(85393)); var _v4 = _interopRequireDefault(__nccwpck_require__(48788)); var _nil = _interopRequireDefault(__nccwpck_require__(657)); var _version = _interopRequireDefault(__nccwpck_require__(37909)); var _validate = _interopRequireDefault(__nccwpck_require__(64418)); var _stringify = _interopRequireDefault(__nccwpck_require__(74794)); var _parse = _interopRequireDefault(__nccwpck_require__(67079)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } /***/ }), /***/ 64153: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _crypto = _interopRequireDefault(__nccwpck_require__(6113)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } function md5(bytes) { if (Array.isArray(bytes)) { bytes = Buffer.from(bytes); } else if (typeof bytes === 'string') { bytes = Buffer.from(bytes, 'utf8'); } return _crypto.default.createHash('md5').update(bytes).digest(); } var _default = md5; exports["default"] = _default; /***/ }), /***/ 657: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _default = '00000000-0000-0000-0000-000000000000'; exports["default"] = _default; /***/ }), /***/ 67079: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _validate = _interopRequireDefault(__nccwpck_require__(64418)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } function parse(uuid) { if (!(0, _validate.default)(uuid)) { throw TypeError('Invalid UUID'); } let v; const arr = new Uint8Array(16); // Parse ########-....-....-....-............ arr[0] = (v = parseInt(uuid.slice(0, 8), 16)) >>> 24; arr[1] = v >>> 16 & 0xff; arr[2] = v >>> 8 & 0xff; arr[3] = v & 0xff; // Parse ........-####-....-....-............ arr[4] = (v = parseInt(uuid.slice(9, 13), 16)) >>> 8; arr[5] = v & 0xff; // Parse ........-....-####-....-............ arr[6] = (v = parseInt(uuid.slice(14, 18), 16)) >>> 8; arr[7] = v & 0xff; // Parse ........-....-....-####-............ arr[8] = (v = parseInt(uuid.slice(19, 23), 16)) >>> 8; arr[9] = v & 0xff; // Parse ........-....-....-....-############ // (Use "/" to avoid 32-bit truncation when bit-shifting high-order bytes) arr[10] = (v = parseInt(uuid.slice(24, 36), 16)) / 0x10000000000 & 0xff; arr[11] = v / 0x100000000 & 0xff; arr[12] = v >>> 24 & 0xff; arr[13] = v >>> 16 & 0xff; arr[14] = v >>> 8 & 0xff; arr[15] = v & 0xff; return arr; } var _default = parse; exports["default"] = _default; /***/ }), /***/ 90690: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _default = /^(?:[0-9a-f]{8}-[0-9a-f]{4}-[1-5][0-9a-f]{3}-[89ab][0-9a-f]{3}-[0-9a-f]{12}|00000000-0000-0000-0000-000000000000)$/i; exports["default"] = _default; /***/ }), /***/ 10979: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = rng; var _crypto = _interopRequireDefault(__nccwpck_require__(6113)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } const rnds8Pool = new Uint8Array(256); // # of random values to pre-allocate let poolPtr = rnds8Pool.length; function rng() { if (poolPtr > rnds8Pool.length - 16) { _crypto.default.randomFillSync(rnds8Pool); poolPtr = 0; } return rnds8Pool.slice(poolPtr, poolPtr += 16); } /***/ }), /***/ 36631: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _crypto = _interopRequireDefault(__nccwpck_require__(6113)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } function sha1(bytes) { if (Array.isArray(bytes)) { bytes = Buffer.from(bytes); } else if (typeof bytes === 'string') { bytes = Buffer.from(bytes, 'utf8'); } return _crypto.default.createHash('sha1').update(bytes).digest(); } var _default = sha1; exports["default"] = _default; /***/ }), /***/ 74794: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _validate = _interopRequireDefault(__nccwpck_require__(64418)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } /** * Convert array of 16 byte values to UUID string format of the form: * XXXXXXXX-XXXX-XXXX-XXXX-XXXXXXXXXXXX */ const byteToHex = []; for (let i = 0; i < 256; ++i) { byteToHex.push((i + 0x100).toString(16).substr(1)); } function stringify(arr, offset = 0) { // Note: Be careful editing this code! It's been tuned for performance // and works in ways you may not expect. See https://github.com/uuidjs/uuid/pull/434 const uuid = (byteToHex[arr[offset + 0]] + byteToHex[arr[offset + 1]] + byteToHex[arr[offset + 2]] + byteToHex[arr[offset + 3]] + '-' + byteToHex[arr[offset + 4]] + byteToHex[arr[offset + 5]] + '-' + byteToHex[arr[offset + 6]] + byteToHex[arr[offset + 7]] + '-' + byteToHex[arr[offset + 8]] + byteToHex[arr[offset + 9]] + '-' + byteToHex[arr[offset + 10]] + byteToHex[arr[offset + 11]] + byteToHex[arr[offset + 12]] + byteToHex[arr[offset + 13]] + byteToHex[arr[offset + 14]] + byteToHex[arr[offset + 15]]).toLowerCase(); // Consistency check for valid UUID. If this throws, it's likely due to one // of the following: // - One or more input array values don't map to a hex octet (leading to // "undefined" in the uuid) // - Invalid input values for the RFC `version` or `variant` fields if (!(0, _validate.default)(uuid)) { throw TypeError('Stringified UUID is invalid'); } return uuid; } var _default = stringify; exports["default"] = _default; /***/ }), /***/ 14757: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _rng = _interopRequireDefault(__nccwpck_require__(10979)); var _stringify = _interopRequireDefault(__nccwpck_require__(74794)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } // **`v1()` - Generate time-based UUID** // // Inspired by https://github.com/LiosK/UUID.js // and http://docs.python.org/library/uuid.html let _nodeId; let _clockseq; // Previous uuid creation time let _lastMSecs = 0; let _lastNSecs = 0; // See https://github.com/uuidjs/uuid for API details function v1(options, buf, offset) { let i = buf && offset || 0; const b = buf || new Array(16); options = options || {}; let node = options.node || _nodeId; let clockseq = options.clockseq !== undefined ? options.clockseq : _clockseq; // node and clockseq need to be initialized to random values if they're not // specified. We do this lazily to minimize issues related to insufficient // system entropy. See #189 if (node == null || clockseq == null) { const seedBytes = options.random || (options.rng || _rng.default)(); if (node == null) { // Per 4.5, create and 48-bit node id, (47 random bits + multicast bit = 1) node = _nodeId = [seedBytes[0] | 0x01, seedBytes[1], seedBytes[2], seedBytes[3], seedBytes[4], seedBytes[5]]; } if (clockseq == null) { // Per 4.2.2, randomize (14 bit) clockseq clockseq = _clockseq = (seedBytes[6] << 8 | seedBytes[7]) & 0x3fff; } } // UUID timestamps are 100 nano-second units since the Gregorian epoch, // (1582-10-15 00:00). JSNumbers aren't precise enough for this, so // time is handled internally as 'msecs' (integer milliseconds) and 'nsecs' // (100-nanoseconds offset from msecs) since unix epoch, 1970-01-01 00:00. let msecs = options.msecs !== undefined ? options.msecs : Date.now(); // Per 4.2.1.2, use count of uuid's generated during the current clock // cycle to simulate higher resolution clock let nsecs = options.nsecs !== undefined ? options.nsecs : _lastNSecs + 1; // Time since last uuid creation (in msecs) const dt = msecs - _lastMSecs + (nsecs - _lastNSecs) / 10000; // Per 4.2.1.2, Bump clockseq on clock regression if (dt < 0 && options.clockseq === undefined) { clockseq = clockseq + 1 & 0x3fff; } // Reset nsecs if clock regresses (new clockseq) or we've moved onto a new // time interval if ((dt < 0 || msecs > _lastMSecs) && options.nsecs === undefined) { nsecs = 0; } // Per 4.2.1.2 Throw error if too many uuids are requested if (nsecs >= 10000) { throw new Error("uuid.v1(): Can't create more than 10M uuids/sec"); } _lastMSecs = msecs; _lastNSecs = nsecs; _clockseq = clockseq; // Per 4.1.4 - Convert from unix epoch to Gregorian epoch msecs += 12219292800000; // `time_low` const tl = ((msecs & 0xfffffff) * 10000 + nsecs) % 0x100000000; b[i++] = tl >>> 24 & 0xff; b[i++] = tl >>> 16 & 0xff; b[i++] = tl >>> 8 & 0xff; b[i++] = tl & 0xff; // `time_mid` const tmh = msecs / 0x100000000 * 10000 & 0xfffffff; b[i++] = tmh >>> 8 & 0xff; b[i++] = tmh & 0xff; // `time_high_and_version` b[i++] = tmh >>> 24 & 0xf | 0x10; // include version b[i++] = tmh >>> 16 & 0xff; // `clock_seq_hi_and_reserved` (Per 4.2.2 - include variant) b[i++] = clockseq >>> 8 | 0x80; // `clock_seq_low` b[i++] = clockseq & 0xff; // `node` for (let n = 0; n < 6; ++n) { b[i + n] = node[n]; } return buf || (0, _stringify.default)(b); } var _default = v1; exports["default"] = _default; /***/ }), /***/ 19982: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _v = _interopRequireDefault(__nccwpck_require__(44085)); var _md = _interopRequireDefault(__nccwpck_require__(64153)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } const v3 = (0, _v.default)('v3', 0x30, _md.default); var _default = v3; exports["default"] = _default; /***/ }), /***/ 44085: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = _default; exports.URL = exports.DNS = void 0; var _stringify = _interopRequireDefault(__nccwpck_require__(74794)); var _parse = _interopRequireDefault(__nccwpck_require__(67079)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } function stringToBytes(str) { str = unescape(encodeURIComponent(str)); // UTF8 escape const bytes = []; for (let i = 0; i < str.length; ++i) { bytes.push(str.charCodeAt(i)); } return bytes; } const DNS = '6ba7b810-9dad-11d1-80b4-00c04fd430c8'; exports.DNS = DNS; const URL = '6ba7b811-9dad-11d1-80b4-00c04fd430c8'; exports.URL = URL; function _default(name, version, hashfunc) { function generateUUID(value, namespace, buf, offset) { if (typeof value === 'string') { value = stringToBytes(value); } if (typeof namespace === 'string') { namespace = (0, _parse.default)(namespace); } if (namespace.length !== 16) { throw TypeError('Namespace must be array-like (16 iterable integer values, 0-255)'); } // Compute hash of namespace and value, Per 4.3 // Future: Use spread syntax when supported on all platforms, e.g. `bytes = // hashfunc([...namespace, ... value])` let bytes = new Uint8Array(16 + value.length); bytes.set(namespace); bytes.set(value, namespace.length); bytes = hashfunc(bytes); bytes[6] = bytes[6] & 0x0f | version; bytes[8] = bytes[8] & 0x3f | 0x80; if (buf) { offset = offset || 0; for (let i = 0; i < 16; ++i) { buf[offset + i] = bytes[i]; } return buf; } return (0, _stringify.default)(bytes); } // Function#name is not settable on some platforms (#270) try { generateUUID.name = name; // eslint-disable-next-line no-empty } catch (err) {} // For CommonJS default export support generateUUID.DNS = DNS; generateUUID.URL = URL; return generateUUID; } /***/ }), /***/ 85393: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _rng = _interopRequireDefault(__nccwpck_require__(10979)); var _stringify = _interopRequireDefault(__nccwpck_require__(74794)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } function v4(options, buf, offset) { options = options || {}; const rnds = options.random || (options.rng || _rng.default)(); // Per 4.4, set bits for version and `clock_seq_hi_and_reserved` rnds[6] = rnds[6] & 0x0f | 0x40; rnds[8] = rnds[8] & 0x3f | 0x80; // Copy bytes to buffer, if provided if (buf) { offset = offset || 0; for (let i = 0; i < 16; ++i) { buf[offset + i] = rnds[i]; } return buf; } return (0, _stringify.default)(rnds); } var _default = v4; exports["default"] = _default; /***/ }), /***/ 48788: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _v = _interopRequireDefault(__nccwpck_require__(44085)); var _sha = _interopRequireDefault(__nccwpck_require__(36631)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } const v5 = (0, _v.default)('v5', 0x50, _sha.default); var _default = v5; exports["default"] = _default; /***/ }), /***/ 64418: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _regex = _interopRequireDefault(__nccwpck_require__(90690)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } function validate(uuid) { return typeof uuid === 'string' && _regex.default.test(uuid); } var _default = validate; exports["default"] = _default; /***/ }), /***/ 37909: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _validate = _interopRequireDefault(__nccwpck_require__(64418)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } function version(uuid) { if (!(0, _validate.default)(uuid)) { throw TypeError('Invalid UUID'); } return parseInt(uuid.substr(14, 1), 16); } var _default = version; exports["default"] = _default; /***/ }), /***/ 27094: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var logger$1 = __nccwpck_require__(3233); // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /** * When a poller is manually stopped through the `stopPolling` method, * the poller will be rejected with an instance of the PollerStoppedError. */ class PollerStoppedError extends Error { constructor(message) { super(message); this.name = "PollerStoppedError"; Object.setPrototypeOf(this, PollerStoppedError.prototype); } } /** * When a poller is cancelled through the `cancelOperation` method, * the poller will be rejected with an instance of the PollerCancelledError. */ class PollerCancelledError extends Error { constructor(message) { super(message); this.name = "PollerCancelledError"; Object.setPrototypeOf(this, PollerCancelledError.prototype); } } /** * A class that represents the definition of a program that polls through consecutive requests * until it reaches a state of completion. * * A poller can be executed manually, by polling request by request by calling to the `poll()` method repeatedly, until its operation is completed. * It also provides a way to wait until the operation completes, by calling `pollUntilDone()` and waiting until the operation finishes. * Pollers can also request the cancellation of the ongoing process to whom is providing the underlying long running operation. * * ```ts * const poller = new MyPoller(); * * // Polling just once: * await poller.poll(); * * // We can try to cancel the request here, by calling: * // * // await poller.cancelOperation(); * // * * // Getting the final result: * const result = await poller.pollUntilDone(); * ``` * * The Poller is defined by two types, a type representing the state of the poller, which * must include a basic set of properties from `PollOperationState`, * and a return type defined by `TResult`, which can be anything. * * The Poller class implements the `PollerLike` interface, which allows poller implementations to avoid having * to export the Poller's class directly, and instead only export the already instantiated poller with the PollerLike type. * * ```ts * class Client { * public async makePoller: PollerLike { * const poller = new MyPoller({}); * // It might be preferred to return the poller after the first request is made, * // so that some information can be obtained right away. * await poller.poll(); * return poller; * } * } * * const poller: PollerLike = myClient.makePoller(); * ``` * * A poller can be created through its constructor, then it can be polled until it's completed. * At any point in time, the state of the poller can be obtained without delay through the getOperationState method. * At any point in time, the intermediate forms of the result type can be requested without delay. * Once the underlying operation is marked as completed, the poller will stop and the final value will be returned. * * ```ts * const poller = myClient.makePoller(); * const state: MyOperationState = poller.getOperationState(); * * // The intermediate result can be obtained at any time. * const result: MyResult | undefined = poller.getResult(); * * // The final result can only be obtained after the poller finishes. * const result: MyResult = await poller.pollUntilDone(); * ``` * */ // eslint-disable-next-line no-use-before-define class Poller { /** * A poller needs to be initialized by passing in at least the basic properties of the `PollOperation`. * * When writing an implementation of a Poller, this implementation needs to deal with the initialization * of any custom state beyond the basic definition of the poller. The basic poller assumes that the poller's * operation has already been defined, at least its basic properties. The code below shows how to approach * the definition of the constructor of a new custom poller. * * ```ts * export class MyPoller extends Poller { * constructor({ * // Anything you might need outside of the basics * }) { * let state: MyOperationState = { * privateProperty: private, * publicProperty: public, * }; * * const operation = { * state, * update, * cancel, * toString * } * * // Sending the operation to the parent's constructor. * super(operation); * * // You can assign more local properties here. * } * } * ``` * * Inside of this constructor, a new promise is created. This will be used to * tell the user when the poller finishes (see `pollUntilDone()`). The promise's * resolve and reject methods are also used internally to control when to resolve * or reject anyone waiting for the poller to finish. * * The constructor of a custom implementation of a poller is where any serialized version of * a previous poller's operation should be deserialized into the operation sent to the * base constructor. For example: * * ```ts * export class MyPoller extends Poller { * constructor( * baseOperation: string | undefined * ) { * let state: MyOperationState = {}; * if (baseOperation) { * state = { * ...JSON.parse(baseOperation).state, * ...state * }; * } * const operation = { * state, * // ... * } * super(operation); * } * } * ``` * * @param operation - Must contain the basic properties of `PollOperation`. */ constructor(operation) { this.stopped = true; this.pollProgressCallbacks = []; this.operation = operation; this.promise = new Promise((resolve, reject) => { this.resolve = resolve; this.reject = reject; }); // This prevents the UnhandledPromiseRejectionWarning in node.js from being thrown. // The above warning would get thrown if `poller.poll` is called, it returns an error, // and pullUntilDone did not have a .catch or await try/catch on it's return value. this.promise.catch(() => { /* intentionally blank */ }); } /** * Starts a loop that will break only if the poller is done * or if the poller is stopped. */ async startPolling() { if (this.stopped) { this.stopped = false; } while (!this.isStopped() && !this.isDone()) { await this.poll(); await this.delay(); } } /** * pollOnce does one polling, by calling to the update method of the underlying * poll operation to make any relevant change effective. * * It only optionally receives an object with an abortSignal property, from \@azure/abort-controller's AbortSignalLike. * * @param options - Optional properties passed to the operation's update method. */ async pollOnce(options = {}) { try { if (!this.isDone()) { this.operation = await this.operation.update({ abortSignal: options.abortSignal, fireProgress: this.fireProgress.bind(this), }); if (this.isDone() && this.resolve) { // If the poller has finished polling, this means we now have a result. // However, it can be the case that TResult is instantiated to void, so // we are not expecting a result anyway. To assert that we might not // have a result eventually after finishing polling, we cast the result // to TResult. this.resolve(this.operation.state.result); } } } catch (e) { this.operation.state.error = e; if (this.reject) { this.reject(e); } throw e; } } /** * fireProgress calls the functions passed in via onProgress the method of the poller. * * It loops over all of the callbacks received from onProgress, and executes them, sending them * the current operation state. * * @param state - The current operation state. */ fireProgress(state) { for (const callback of this.pollProgressCallbacks) { callback(state); } } /** * Invokes the underlying operation's cancel method, and rejects the * pollUntilDone promise. */ async cancelOnce(options = {}) { this.operation = await this.operation.cancel(options); if (this.reject) { this.reject(new PollerCancelledError("Poller cancelled")); } } /** * Returns a promise that will resolve once a single polling request finishes. * It does this by calling the update method of the Poller's operation. * * It only optionally receives an object with an abortSignal property, from \@azure/abort-controller's AbortSignalLike. * * @param options - Optional properties passed to the operation's update method. */ poll(options = {}) { if (!this.pollOncePromise) { this.pollOncePromise = this.pollOnce(options); const clearPollOncePromise = () => { this.pollOncePromise = undefined; }; this.pollOncePromise.then(clearPollOncePromise, clearPollOncePromise).catch(this.reject); } return this.pollOncePromise; } /** * Returns a promise that will resolve once the underlying operation is completed. */ async pollUntilDone() { if (this.stopped) { this.startPolling().catch(this.reject); } return this.promise; } /** * Invokes the provided callback after each polling is completed, * sending the current state of the poller's operation. * * It returns a method that can be used to stop receiving updates on the given callback function. */ onProgress(callback) { this.pollProgressCallbacks.push(callback); return () => { this.pollProgressCallbacks = this.pollProgressCallbacks.filter((c) => c !== callback); }; } /** * Returns true if the poller has finished polling. */ isDone() { const state = this.operation.state; return Boolean(state.isCompleted || state.isCancelled || state.error); } /** * Stops the poller from continuing to poll. */ stopPolling() { if (!this.stopped) { this.stopped = true; if (this.reject) { this.reject(new PollerStoppedError("This poller is already stopped")); } } } /** * Returns true if the poller is stopped. */ isStopped() { return this.stopped; } /** * Attempts to cancel the underlying operation. * * It only optionally receives an object with an abortSignal property, from \@azure/abort-controller's AbortSignalLike. * * If it's called again before it finishes, it will throw an error. * * @param options - Optional properties passed to the operation's update method. */ cancelOperation(options = {}) { if (!this.stopped) { this.stopped = true; } if (!this.cancelPromise) { this.cancelPromise = this.cancelOnce(options); } else if (options.abortSignal) { throw new Error("A cancel request is currently pending"); } return this.cancelPromise; } /** * Returns the state of the operation. * * Even though TState will be the same type inside any of the methods of any extension of the Poller class, * implementations of the pollers can customize what's shared with the public by writing their own * version of the `getOperationState` method, and by defining two types, one representing the internal state of the poller * and a public type representing a safe to share subset of the properties of the internal state. * Their definition of getOperationState can then return their public type. * * Example: * * ```ts * // Let's say we have our poller's operation state defined as: * interface MyOperationState extends PollOperationState { * privateProperty?: string; * publicProperty?: string; * } * * // To allow us to have a true separation of public and private state, we have to define another interface: * interface PublicState extends PollOperationState { * publicProperty?: string; * } * * // Then, we define our Poller as follows: * export class MyPoller extends Poller { * // ... More content is needed here ... * * public getOperationState(): PublicState { * const state: PublicState = this.operation.state; * return { * // Properties from PollOperationState * isStarted: state.isStarted, * isCompleted: state.isCompleted, * isCancelled: state.isCancelled, * error: state.error, * result: state.result, * * // The only other property needed by PublicState. * publicProperty: state.publicProperty * } * } * } * ``` * * You can see this in the tests of this repository, go to the file: * `../test/utils/testPoller.ts` * and look for the getOperationState implementation. */ getOperationState() { return this.operation.state; } /** * Returns the result value of the operation, * regardless of the state of the poller. * It can return undefined or an incomplete form of the final TResult value * depending on the implementation. */ getResult() { const state = this.operation.state; return state.result; } /** * Returns a serialized version of the poller's operation * by invoking the operation's toString method. */ toString() { return this.operation.toString(); } } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /** * Detects where the continuation token is and returns it. Notice that azure-asyncoperation * must be checked first before the other location headers because there are scenarios * where both azure-asyncoperation and location could be present in the same response but * azure-asyncoperation should be the one to use for polling. */ function getPollingUrl(rawResponse, defaultPath) { var _a, _b, _c; return ((_c = (_b = (_a = getAzureAsyncOperation(rawResponse)) !== null && _a !== void 0 ? _a : getOperationLocation(rawResponse)) !== null && _b !== void 0 ? _b : getLocation(rawResponse)) !== null && _c !== void 0 ? _c : defaultPath); } function getLocation(rawResponse) { return rawResponse.headers["location"]; } function getOperationLocation(rawResponse) { return rawResponse.headers["operation-location"]; } function getAzureAsyncOperation(rawResponse) { return rawResponse.headers["azure-asyncoperation"]; } function findResourceLocation(requestMethod, rawResponse, requestPath) { switch (requestMethod) { case "PUT": { return requestPath; } case "POST": case "PATCH": { return getLocation(rawResponse); } default: { return undefined; } } } function inferLroMode(requestPath, requestMethod, rawResponse) { if (getAzureAsyncOperation(rawResponse) !== undefined || getOperationLocation(rawResponse) !== undefined) { return { mode: "Location", resourceLocation: findResourceLocation(requestMethod, rawResponse, requestPath), }; } else if (getLocation(rawResponse) !== undefined) { return { mode: "Location", }; } else if (["PUT", "PATCH"].includes(requestMethod)) { return { mode: "Body", }; } return {}; } class SimpleRestError extends Error { constructor(message, statusCode) { super(message); this.name = "RestError"; this.statusCode = statusCode; Object.setPrototypeOf(this, SimpleRestError.prototype); } } function isUnexpectedInitialResponse(rawResponse) { const code = rawResponse.statusCode; if (![203, 204, 202, 201, 200, 500].includes(code)) { throw new SimpleRestError(`Received unexpected HTTP status code ${code} in the initial response. This may indicate a server issue.`, code); } return false; } function isUnexpectedPollingResponse(rawResponse) { const code = rawResponse.statusCode; if (![202, 201, 200, 500].includes(code)) { throw new SimpleRestError(`Received unexpected HTTP status code ${code} while polling. This may indicate a server issue.`, code); } return false; } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. const successStates = ["succeeded"]; const failureStates = ["failed", "canceled", "cancelled"]; // Copyright (c) Microsoft Corporation. function getProvisioningState(rawResponse) { var _a, _b; const { properties, provisioningState } = (_a = rawResponse.body) !== null && _a !== void 0 ? _a : {}; const state = (_b = properties === null || properties === void 0 ? void 0 : properties.provisioningState) !== null && _b !== void 0 ? _b : provisioningState; return typeof state === "string" ? state.toLowerCase() : "succeeded"; } function isBodyPollingDone(rawResponse) { const state = getProvisioningState(rawResponse); if (isUnexpectedPollingResponse(rawResponse) || failureStates.includes(state)) { throw new Error(`The long running operation has failed. The provisioning state: ${state}.`); } return successStates.includes(state); } /** * Creates a polling strategy based on BodyPolling which uses the provisioning state * from the result to determine the current operation state */ function processBodyPollingOperationResult(response) { return Object.assign(Object.assign({}, response), { done: isBodyPollingDone(response.rawResponse) }); } // Copyright (c) Microsoft Corporation. /** * The `@azure/logger` configuration for this package. * @internal */ const logger = logger$1.createClientLogger("core-lro"); // Copyright (c) Microsoft Corporation. function isPollingDone(rawResponse) { var _a; if (isUnexpectedPollingResponse(rawResponse) || rawResponse.statusCode === 202) { return false; } const { status } = (_a = rawResponse.body) !== null && _a !== void 0 ? _a : {}; const state = typeof status === "string" ? status.toLowerCase() : "succeeded"; if (isUnexpectedPollingResponse(rawResponse) || failureStates.includes(state)) { throw new Error(`The long running operation has failed. The provisioning state: ${state}.`); } return successStates.includes(state); } /** * Sends a request to the URI of the provisioned resource if needed. */ async function sendFinalRequest(lro, resourceLocation, lroResourceLocationConfig) { switch (lroResourceLocationConfig) { case "original-uri": return lro.sendPollRequest(lro.requestPath); case "azure-async-operation": return undefined; case "location": default: return lro.sendPollRequest(resourceLocation !== null && resourceLocation !== void 0 ? resourceLocation : lro.requestPath); } } function processLocationPollingOperationResult(lro, resourceLocation, lroResourceLocationConfig) { return (response) => { if (isPollingDone(response.rawResponse)) { if (resourceLocation === undefined) { return Object.assign(Object.assign({}, response), { done: true }); } else { return Object.assign(Object.assign({}, response), { done: false, next: async () => { const finalResponse = await sendFinalRequest(lro, resourceLocation, lroResourceLocationConfig); return Object.assign(Object.assign({}, (finalResponse !== null && finalResponse !== void 0 ? finalResponse : response)), { done: true }); } }); } } return Object.assign(Object.assign({}, response), { done: false }); }; } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. function processPassthroughOperationResult(response) { return Object.assign(Object.assign({}, response), { done: true }); } // Copyright (c) Microsoft Corporation. /** * creates a stepping function that maps an LRO state to another. */ function createGetLroStatusFromResponse(lroPrimitives, config, lroResourceLocationConfig) { switch (config.mode) { case "Location": { return processLocationPollingOperationResult(lroPrimitives, config.resourceLocation, lroResourceLocationConfig); } case "Body": { return processBodyPollingOperationResult; } default: { return processPassthroughOperationResult; } } } /** * Creates a polling operation. */ function createPoll(lroPrimitives) { return async (path, pollerConfig, getLroStatusFromResponse) => { const response = await lroPrimitives.sendPollRequest(path); const retryAfter = response.rawResponse.headers["retry-after"]; if (retryAfter !== undefined) { // Retry-After header value is either in HTTP date format, or in seconds const retryAfterInSeconds = parseInt(retryAfter); pollerConfig.intervalInMs = isNaN(retryAfterInSeconds) ? calculatePollingIntervalFromDate(new Date(retryAfter), pollerConfig.intervalInMs) : retryAfterInSeconds * 1000; } return getLroStatusFromResponse(response); }; } function calculatePollingIntervalFromDate(retryAfterDate, defaultIntervalInMs) { const timeNow = Math.floor(new Date().getTime()); const retryAfterTime = retryAfterDate.getTime(); if (timeNow < retryAfterTime) { return retryAfterTime - timeNow; } return defaultIntervalInMs; } /** * Creates a callback to be used to initialize the polling operation state. * @param state - of the polling operation * @param operationSpec - of the LRO * @param callback - callback to be called when the operation is done * @returns callback that initializes the state of the polling operation */ function createInitializeState(state, requestPath, requestMethod) { return (response) => { if (isUnexpectedInitialResponse(response.rawResponse)) ; state.initialRawResponse = response.rawResponse; state.isStarted = true; state.pollingURL = getPollingUrl(state.initialRawResponse, requestPath); state.config = inferLroMode(requestPath, requestMethod, state.initialRawResponse); /** short circuit polling if body polling is done in the initial request */ if (state.config.mode === undefined || (state.config.mode === "Body" && isBodyPollingDone(state.initialRawResponse))) { state.result = response.flatResponse; state.isCompleted = true; } logger.verbose(`LRO: initial state: ${JSON.stringify(state)}`); return Boolean(state.isCompleted); }; } // Copyright (c) Microsoft Corporation. class GenericPollOperation { constructor(state, lro, lroResourceLocationConfig, processResult, updateState, isDone) { this.state = state; this.lro = lro; this.lroResourceLocationConfig = lroResourceLocationConfig; this.processResult = processResult; this.updateState = updateState; this.isDone = isDone; } setPollerConfig(pollerConfig) { this.pollerConfig = pollerConfig; } /** * General update function for LROPoller, the general process is as follows * 1. Check initial operation result to determine the strategy to use * - Strategies: Location, Azure-AsyncOperation, Original Uri * 2. Check if the operation result has a terminal state * - Terminal state will be determined by each strategy * 2.1 If it is terminal state Check if a final GET request is required, if so * send final GET request and return result from operation. If no final GET * is required, just return the result from operation. * - Determining what to call for final request is responsibility of each strategy * 2.2 If it is not terminal state, call the polling operation and go to step 1 * - Determining what to call for polling is responsibility of each strategy * - Strategies will always use the latest URI for polling if provided otherwise * the last known one */ async update(options) { var _a, _b, _c; const state = this.state; let lastResponse = undefined; if (!state.isStarted) { const initializeState = createInitializeState(state, this.lro.requestPath, this.lro.requestMethod); lastResponse = await this.lro.sendInitialRequest(); initializeState(lastResponse); } if (!state.isCompleted) { if (!this.poll || !this.getLroStatusFromResponse) { if (!state.config) { throw new Error("Bad state: LRO mode is undefined. Please check if the serialized state is well-formed."); } const isDone = this.isDone; this.getLroStatusFromResponse = isDone ? (response) => (Object.assign(Object.assign({}, response), { done: isDone(response.flatResponse, this.state) })) : createGetLroStatusFromResponse(this.lro, state.config, this.lroResourceLocationConfig); this.poll = createPoll(this.lro); } if (!state.pollingURL) { throw new Error("Bad state: polling URL is undefined. Please check if the serialized state is well-formed."); } const currentState = await this.poll(state.pollingURL, this.pollerConfig, this.getLroStatusFromResponse); logger.verbose(`LRO: polling response: ${JSON.stringify(currentState.rawResponse)}`); if (currentState.done) { state.result = this.processResult ? this.processResult(currentState.flatResponse, state) : currentState.flatResponse; state.isCompleted = true; } else { this.poll = (_a = currentState.next) !== null && _a !== void 0 ? _a : this.poll; state.pollingURL = getPollingUrl(currentState.rawResponse, state.pollingURL); } lastResponse = currentState; } logger.verbose(`LRO: current state: ${JSON.stringify(state)}`); if (lastResponse) { (_b = this.updateState) === null || _b === void 0 ? void 0 : _b.call(this, state, lastResponse === null || lastResponse === void 0 ? void 0 : lastResponse.rawResponse); } else { logger.error(`LRO: no response was received`); } (_c = options === null || options === void 0 ? void 0 : options.fireProgress) === null || _c === void 0 ? void 0 : _c.call(options, state); return this; } async cancel() { this.state.isCancelled = true; return this; } /** * Serializes the Poller operation. */ toString() { return JSON.stringify({ state: this.state, }); } } // Copyright (c) Microsoft Corporation. function deserializeState(serializedState) { try { return JSON.parse(serializedState).state; } catch (e) { throw new Error(`LroEngine: Unable to deserialize state: ${serializedState}`); } } /** * The LRO Engine, a class that performs polling. */ class LroEngine extends Poller { constructor(lro, options) { const { intervalInMs = 2000, resumeFrom } = options || {}; const state = resumeFrom ? deserializeState(resumeFrom) : {}; const operation = new GenericPollOperation(state, lro, options === null || options === void 0 ? void 0 : options.lroResourceLocationConfig, options === null || options === void 0 ? void 0 : options.processResult, options === null || options === void 0 ? void 0 : options.updateState, options === null || options === void 0 ? void 0 : options.isDone); super(operation); this.config = { intervalInMs: intervalInMs }; operation.setPollerConfig(this.config); } /** * The method used by the poller to wait before attempting to update its operation. */ delay() { return new Promise((resolve) => setTimeout(() => resolve(), this.config.intervalInMs)); } } exports.LroEngine = LroEngine; exports.Poller = Poller; exports.PollerCancelledError = PollerCancelledError; exports.PollerStoppedError = PollerStoppedError; //# sourceMappingURL=index.js.map /***/ }), /***/ 74559: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); __nccwpck_require__(2356); var tslib = __nccwpck_require__(26429); // Copyright (c) Microsoft Corporation. /** * returns an async iterator that iterates over results. It also has a `byPage` * method that returns pages of items at once. * * @param pagedResult - an object that specifies how to get pages. * @returns a paged async iterator that iterates over results. */ function getPagedAsyncIterator(pagedResult) { var _a; const iter = getItemAsyncIterator(pagedResult); return { next() { return iter.next(); }, [Symbol.asyncIterator]() { return this; }, byPage: (_a = pagedResult === null || pagedResult === void 0 ? void 0 : pagedResult.byPage) !== null && _a !== void 0 ? _a : ((settings) => { return getPageAsyncIterator(pagedResult, settings === null || settings === void 0 ? void 0 : settings.maxPageSize); }), }; } function getItemAsyncIterator(pagedResult, maxPageSize) { return tslib.__asyncGenerator(this, arguments, function* getItemAsyncIterator_1() { var e_1, _a; const pages = getPageAsyncIterator(pagedResult, maxPageSize); const firstVal = yield tslib.__await(pages.next()); // if the result does not have an array shape, i.e. TPage = TElement, then we return it as is if (!Array.isArray(firstVal.value)) { yield yield tslib.__await(firstVal.value); // `pages` is of type `AsyncIterableIterator` but TPage = TElement in this case yield tslib.__await(yield* tslib.__asyncDelegator(tslib.__asyncValues(pages))); } else { yield tslib.__await(yield* tslib.__asyncDelegator(tslib.__asyncValues(firstVal.value))); try { for (var pages_1 = tslib.__asyncValues(pages), pages_1_1; pages_1_1 = yield tslib.__await(pages_1.next()), !pages_1_1.done;) { const page = pages_1_1.value; // pages is of type `AsyncIterableIterator` so `page` is of type `TPage`. In this branch, // it must be the case that `TPage = TElement[]` yield tslib.__await(yield* tslib.__asyncDelegator(tslib.__asyncValues(page))); } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (pages_1_1 && !pages_1_1.done && (_a = pages_1.return)) yield tslib.__await(_a.call(pages_1)); } finally { if (e_1) throw e_1.error; } } } }); } function getPageAsyncIterator(pagedResult, maxPageSize) { return tslib.__asyncGenerator(this, arguments, function* getPageAsyncIterator_1() { let response = yield tslib.__await(pagedResult.getPage(pagedResult.firstPageLink, maxPageSize)); yield yield tslib.__await(response.page); while (response.nextPageLink) { response = yield tslib.__await(pagedResult.getPage(response.nextPageLink, maxPageSize)); yield yield tslib.__await(response.page); } }); } exports.getPagedAsyncIterator = getPagedAsyncIterator; //# sourceMappingURL=index.js.map /***/ }), /***/ 26429: /***/ ((module) => { /*! ***************************************************************************** Copyright (c) Microsoft Corporation. Permission to use, copy, modify, and/or distribute this software for any purpose with or without fee is hereby granted. THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ***************************************************************************** */ /* global global, define, System, Reflect, Promise */ var __extends; var __assign; var __rest; var __decorate; var __param; var __metadata; var __awaiter; var __generator; var __exportStar; var __values; var __read; var __spread; var __spreadArrays; var __spreadArray; var __await; var __asyncGenerator; var __asyncDelegator; var __asyncValues; var __makeTemplateObject; var __importStar; var __importDefault; var __classPrivateFieldGet; var __classPrivateFieldSet; var __createBinding; (function (factory) { var root = typeof global === "object" ? global : typeof self === "object" ? self : typeof this === "object" ? this : {}; if (typeof define === "function" && define.amd) { define("tslib", ["exports"], function (exports) { factory(createExporter(root, createExporter(exports))); }); } else if ( true && typeof module.exports === "object") { factory(createExporter(root, createExporter(module.exports))); } else { factory(createExporter(root)); } function createExporter(exports, previous) { if (exports !== root) { if (typeof Object.create === "function") { Object.defineProperty(exports, "__esModule", { value: true }); } else { exports.__esModule = true; } } return function (id, v) { return exports[id] = previous ? previous(id, v) : v; }; } }) (function (exporter) { var extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (Object.prototype.hasOwnProperty.call(b, p)) d[p] = b[p]; }; __extends = function (d, b) { if (typeof b !== "function" && b !== null) throw new TypeError("Class extends value " + String(b) + " is not a constructor or null"); extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; __assign = Object.assign || function (t) { for (var s, i = 1, n = arguments.length; i < n; i++) { s = arguments[i]; for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p)) t[p] = s[p]; } return t; }; __rest = function (s, e) { var t = {}; for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p) && e.indexOf(p) < 0) t[p] = s[p]; if (s != null && typeof Object.getOwnPropertySymbols === "function") for (var i = 0, p = Object.getOwnPropertySymbols(s); i < p.length; i++) { if (e.indexOf(p[i]) < 0 && Object.prototype.propertyIsEnumerable.call(s, p[i])) t[p[i]] = s[p[i]]; } return t; }; __decorate = function (decorators, target, key, desc) { var c = arguments.length, r = c < 3 ? target : desc === null ? desc = Object.getOwnPropertyDescriptor(target, key) : desc, d; if (typeof Reflect === "object" && typeof Reflect.decorate === "function") r = Reflect.decorate(decorators, target, key, desc); else for (var i = decorators.length - 1; i >= 0; i--) if (d = decorators[i]) r = (c < 3 ? d(r) : c > 3 ? d(target, key, r) : d(target, key)) || r; return c > 3 && r && Object.defineProperty(target, key, r), r; }; __param = function (paramIndex, decorator) { return function (target, key) { decorator(target, key, paramIndex); } }; __metadata = function (metadataKey, metadataValue) { if (typeof Reflect === "object" && typeof Reflect.metadata === "function") return Reflect.metadata(metadataKey, metadataValue); }; __awaiter = function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; __generator = function (thisArg, body) { var _ = { label: 0, sent: function() { if (t[0] & 1) throw t[1]; return t[1]; }, trys: [], ops: [] }, f, y, t, g; return g = { next: verb(0), "throw": verb(1), "return": verb(2) }, typeof Symbol === "function" && (g[Symbol.iterator] = function() { return this; }), g; function verb(n) { return function (v) { return step([n, v]); }; } function step(op) { if (f) throw new TypeError("Generator is already executing."); while (_) try { if (f = 1, y && (t = op[0] & 2 ? y["return"] : op[0] ? y["throw"] || ((t = y["return"]) && t.call(y), 0) : y.next) && !(t = t.call(y, op[1])).done) return t; if (y = 0, t) op = [op[0] & 2, t.value]; switch (op[0]) { case 0: case 1: t = op; break; case 4: _.label++; return { value: op[1], done: false }; case 5: _.label++; y = op[1]; op = [0]; continue; case 7: op = _.ops.pop(); _.trys.pop(); continue; default: if (!(t = _.trys, t = t.length > 0 && t[t.length - 1]) && (op[0] === 6 || op[0] === 2)) { _ = 0; continue; } if (op[0] === 3 && (!t || (op[1] > t[0] && op[1] < t[3]))) { _.label = op[1]; break; } if (op[0] === 6 && _.label < t[1]) { _.label = t[1]; t = op; break; } if (t && _.label < t[2]) { _.label = t[2]; _.ops.push(op); break; } if (t[2]) _.ops.pop(); _.trys.pop(); continue; } op = body.call(thisArg, _); } catch (e) { op = [6, e]; y = 0; } finally { f = t = 0; } if (op[0] & 5) throw op[1]; return { value: op[0] ? op[1] : void 0, done: true }; } }; __exportStar = function(m, o) { for (var p in m) if (p !== "default" && !Object.prototype.hasOwnProperty.call(o, p)) __createBinding(o, m, p); }; __createBinding = Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } }); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; }); __values = function (o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; __read = function (o, n) { var m = typeof Symbol === "function" && o[Symbol.iterator]; if (!m) return o; var i = m.call(o), r, ar = [], e; try { while ((n === void 0 || n-- > 0) && !(r = i.next()).done) ar.push(r.value); } catch (error) { e = { error: error }; } finally { try { if (r && !r.done && (m = i["return"])) m.call(i); } finally { if (e) throw e.error; } } return ar; }; /** @deprecated */ __spread = function () { for (var ar = [], i = 0; i < arguments.length; i++) ar = ar.concat(__read(arguments[i])); return ar; }; /** @deprecated */ __spreadArrays = function () { for (var s = 0, i = 0, il = arguments.length; i < il; i++) s += arguments[i].length; for (var r = Array(s), k = 0, i = 0; i < il; i++) for (var a = arguments[i], j = 0, jl = a.length; j < jl; j++, k++) r[k] = a[j]; return r; }; __spreadArray = function (to, from, pack) { if (pack || arguments.length === 2) for (var i = 0, l = from.length, ar; i < l; i++) { if (ar || !(i in from)) { if (!ar) ar = Array.prototype.slice.call(from, 0, i); ar[i] = from[i]; } } return to.concat(ar || Array.prototype.slice.call(from)); }; __await = function (v) { return this instanceof __await ? (this.v = v, this) : new __await(v); }; __asyncGenerator = function (thisArg, _arguments, generator) { if (!Symbol.asyncIterator) throw new TypeError("Symbol.asyncIterator is not defined."); var g = generator.apply(thisArg, _arguments || []), i, q = []; return i = {}, verb("next"), verb("throw"), verb("return"), i[Symbol.asyncIterator] = function () { return this; }, i; function verb(n) { if (g[n]) i[n] = function (v) { return new Promise(function (a, b) { q.push([n, v, a, b]) > 1 || resume(n, v); }); }; } function resume(n, v) { try { step(g[n](v)); } catch (e) { settle(q[0][3], e); } } function step(r) { r.value instanceof __await ? Promise.resolve(r.value.v).then(fulfill, reject) : settle(q[0][2], r); } function fulfill(value) { resume("next", value); } function reject(value) { resume("throw", value); } function settle(f, v) { if (f(v), q.shift(), q.length) resume(q[0][0], q[0][1]); } }; __asyncDelegator = function (o) { var i, p; return i = {}, verb("next"), verb("throw", function (e) { throw e; }), verb("return"), i[Symbol.iterator] = function () { return this; }, i; function verb(n, f) { i[n] = o[n] ? function (v) { return (p = !p) ? { value: __await(o[n](v)), done: n === "return" } : f ? f(v) : v; } : f; } }; __asyncValues = function (o) { if (!Symbol.asyncIterator) throw new TypeError("Symbol.asyncIterator is not defined."); var m = o[Symbol.asyncIterator], i; return m ? m.call(o) : (o = typeof __values === "function" ? __values(o) : o[Symbol.iterator](), i = {}, verb("next"), verb("throw"), verb("return"), i[Symbol.asyncIterator] = function () { return this; }, i); function verb(n) { i[n] = o[n] && function (v) { return new Promise(function (resolve, reject) { v = o[n](v), settle(resolve, reject, v.done, v.value); }); }; } function settle(resolve, reject, d, v) { Promise.resolve(v).then(function(v) { resolve({ value: v, done: d }); }, reject); } }; __makeTemplateObject = function (cooked, raw) { if (Object.defineProperty) { Object.defineProperty(cooked, "raw", { value: raw }); } else { cooked.raw = raw; } return cooked; }; var __setModuleDefault = Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }; __importStar = function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.prototype.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; __importDefault = function (mod) { return (mod && mod.__esModule) ? mod : { "default": mod }; }; __classPrivateFieldGet = function (receiver, state, kind, f) { if (kind === "a" && !f) throw new TypeError("Private accessor was defined without a getter"); if (typeof state === "function" ? receiver !== state || !f : !state.has(receiver)) throw new TypeError("Cannot read private member from an object whose class did not declare it"); return kind === "m" ? f : kind === "a" ? f.call(receiver) : f ? f.value : state.get(receiver); }; __classPrivateFieldSet = function (receiver, state, value, kind, f) { if (kind === "m") throw new TypeError("Private method is not writable"); if (kind === "a" && !f) throw new TypeError("Private accessor was defined without a setter"); if (typeof state === "function" ? receiver !== state || !f : !state.has(receiver)) throw new TypeError("Cannot write private member to an object whose class did not declare it"); return (kind === "a" ? f.call(receiver, value) : f ? f.value = value : state.set(receiver, value)), value; }; exporter("__extends", __extends); exporter("__assign", __assign); exporter("__rest", __rest); exporter("__decorate", __decorate); exporter("__param", __param); exporter("__metadata", __metadata); exporter("__awaiter", __awaiter); exporter("__generator", __generator); exporter("__exportStar", __exportStar); exporter("__createBinding", __createBinding); exporter("__values", __values); exporter("__read", __read); exporter("__spread", __spread); exporter("__spreadArrays", __spreadArrays); exporter("__spreadArray", __spreadArray); exporter("__await", __await); exporter("__asyncGenerator", __asyncGenerator); exporter("__asyncDelegator", __asyncDelegator); exporter("__asyncValues", __asyncValues); exporter("__makeTemplateObject", __makeTemplateObject); exporter("__importStar", __importStar); exporter("__importDefault", __importDefault); exporter("__classPrivateFieldGet", __classPrivateFieldGet); exporter("__classPrivateFieldSet", __classPrivateFieldSet); }); /***/ }), /***/ 94175: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var api = __nccwpck_require__(65163); // Copyright (c) Microsoft Corporation. (function (SpanKind) { /** Default value. Indicates that the span is used internally. */ SpanKind[SpanKind["INTERNAL"] = 0] = "INTERNAL"; /** * Indicates that the span covers server-side handling of an RPC or other * remote request. */ SpanKind[SpanKind["SERVER"] = 1] = "SERVER"; /** * Indicates that the span covers the client-side wrapper around an RPC or * other remote request. */ SpanKind[SpanKind["CLIENT"] = 2] = "CLIENT"; /** * Indicates that the span describes producer sending a message to a * broker. Unlike client and server, there is no direct critical path latency * relationship between producer and consumer spans. */ SpanKind[SpanKind["PRODUCER"] = 3] = "PRODUCER"; /** * Indicates that the span describes consumer receiving a message from a * broker. Unlike client and server, there is no direct critical path latency * relationship between producer and consumer spans. */ SpanKind[SpanKind["CONSUMER"] = 4] = "CONSUMER"; })(exports.SpanKind || (exports.SpanKind = {})); /** * Return the span if one exists * * @param context - context to get span from */ function getSpan(context) { return api.trace.getSpan(context); } /** * Set the span on a context * * @param context - context to use as parent * @param span - span to set active */ function setSpan(context, span) { return api.trace.setSpan(context, span); } /** * Wrap span context in a NoopSpan and set as span in a new * context * * @param context - context to set active span on * @param spanContext - span context to be wrapped */ function setSpanContext(context, spanContext) { return api.trace.setSpanContext(context, spanContext); } /** * Get the span context of the span if it exists. * * @param context - context to get values from */ function getSpanContext(context) { return api.trace.getSpanContext(context); } /** * Returns true of the given {@link SpanContext} is valid. * A valid {@link SpanContext} is one which has a valid trace ID and span ID as per the spec. * * @param context - the {@link SpanContext} to validate. * * @returns true if the {@link SpanContext} is valid, false otherwise. */ function isSpanContextValid(context) { return api.trace.isSpanContextValid(context); } function getTracer(name, version) { return api.trace.getTracer(name || "azure/core-tracing", version); } /** Entrypoint for context API */ const context = api.context; (function (SpanStatusCode) { /** * The default status. */ SpanStatusCode[SpanStatusCode["UNSET"] = 0] = "UNSET"; /** * The operation has been validated by an Application developer or * Operator to have completed successfully. */ SpanStatusCode[SpanStatusCode["OK"] = 1] = "OK"; /** * The operation contains an error. */ SpanStatusCode[SpanStatusCode["ERROR"] = 2] = "ERROR"; })(exports.SpanStatusCode || (exports.SpanStatusCode = {})); // Copyright (c) Microsoft Corporation. function isTracingDisabled() { var _a; if (typeof process === "undefined") { // not supported in browser for now without polyfills return false; } const azureTracingDisabledValue = (_a = process.env.AZURE_TRACING_DISABLED) === null || _a === void 0 ? void 0 : _a.toLowerCase(); if (azureTracingDisabledValue === "false" || azureTracingDisabledValue === "0") { return false; } return Boolean(azureTracingDisabledValue); } /** * Creates a function that can be used to create spans using the global tracer. * * Usage: * * ```typescript * // once * const createSpan = createSpanFunction({ packagePrefix: "Azure.Data.AppConfiguration", namespace: "Microsoft.AppConfiguration" }); * * // in each operation * const span = createSpan("deleteConfigurationSetting", operationOptions); * // code... * span.end(); * ``` * * @hidden * @param args - allows configuration of the prefix for each span as well as the az.namespace field. */ function createSpanFunction(args) { return function (operationName, operationOptions) { const tracer = getTracer(); const tracingOptions = (operationOptions === null || operationOptions === void 0 ? void 0 : operationOptions.tracingOptions) || {}; const spanOptions = Object.assign({ kind: exports.SpanKind.INTERNAL }, tracingOptions.spanOptions); const spanName = args.packagePrefix ? `${args.packagePrefix}.${operationName}` : operationName; let span; if (isTracingDisabled()) { span = api.trace.wrapSpanContext(api.INVALID_SPAN_CONTEXT); } else { span = tracer.startSpan(spanName, spanOptions, tracingOptions.tracingContext); } if (args.namespace) { span.setAttribute("az.namespace", args.namespace); } let newSpanOptions = tracingOptions.spanOptions || {}; if (span.isRecording() && args.namespace) { newSpanOptions = Object.assign(Object.assign({}, tracingOptions.spanOptions), { attributes: Object.assign(Object.assign({}, spanOptions.attributes), { "az.namespace": args.namespace }) }); } const newTracingOptions = Object.assign(Object.assign({}, tracingOptions), { spanOptions: newSpanOptions, tracingContext: setSpan(tracingOptions.tracingContext || context.active(), span) }); const newOperationOptions = Object.assign(Object.assign({}, operationOptions), { tracingOptions: newTracingOptions }); return { span, updatedOptions: newOperationOptions }; }; } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. const VERSION = "00"; /** * Generates a `SpanContext` given a `traceparent` header value. * @param traceParent - Serialized span context data as a `traceparent` header value. * @returns The `SpanContext` generated from the `traceparent` value. */ function extractSpanContextFromTraceParentHeader(traceParentHeader) { const parts = traceParentHeader.split("-"); if (parts.length !== 4) { return; } const [version, traceId, spanId, traceOptions] = parts; if (version !== VERSION) { return; } const traceFlags = parseInt(traceOptions, 16); const spanContext = { spanId, traceId, traceFlags }; return spanContext; } /** * Generates a `traceparent` value given a span context. * @param spanContext - Contains context for a specific span. * @returns The `spanContext` represented as a `traceparent` value. */ function getTraceParentHeader(spanContext) { const missingFields = []; if (!spanContext.traceId) { missingFields.push("traceId"); } if (!spanContext.spanId) { missingFields.push("spanId"); } if (missingFields.length) { return; } const flags = spanContext.traceFlags || 0 /* NONE */; const hexFlags = flags.toString(16); const traceFlags = hexFlags.length === 1 ? `0${hexFlags}` : hexFlags; // https://www.w3.org/TR/trace-context/#traceparent-header-field-values return `${VERSION}-${spanContext.traceId}-${spanContext.spanId}-${traceFlags}`; } exports.context = context; exports.createSpanFunction = createSpanFunction; exports.extractSpanContextFromTraceParentHeader = extractSpanContextFromTraceParentHeader; exports.getSpan = getSpan; exports.getSpanContext = getSpanContext; exports.getTraceParentHeader = getTraceParentHeader; exports.getTracer = getTracer; exports.isSpanContextValid = isSpanContextValid; exports.setSpan = setSpan; exports.setSpanContext = setSpanContext; //# sourceMappingURL=index.js.map /***/ }), /***/ 51333: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var abortController = __nccwpck_require__(52557); var crypto = __nccwpck_require__(6113); // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. var _a$1; /** * A constant that indicates whether the environment the code is running is Node.JS. */ const isNode = typeof process !== "undefined" && Boolean(process.version) && Boolean((_a$1 = process.versions) === null || _a$1 === void 0 ? void 0 : _a$1.node); // Copyright (c) Microsoft Corporation. /** * Creates an abortable promise. * @param buildPromise - A function that takes the resolve and reject functions as parameters. * @param options - The options for the abortable promise. * @returns A promise that can be aborted. */ function createAbortablePromise(buildPromise, options) { const { cleanupBeforeAbort, abortSignal, abortErrorMsg } = options !== null && options !== void 0 ? options : {}; return new Promise((resolve, reject) => { function rejectOnAbort() { reject(new abortController.AbortError(abortErrorMsg !== null && abortErrorMsg !== void 0 ? abortErrorMsg : "The operation was aborted.")); } function removeListeners() { abortSignal === null || abortSignal === void 0 ? void 0 : abortSignal.removeEventListener("abort", onAbort); } function onAbort() { cleanupBeforeAbort === null || cleanupBeforeAbort === void 0 ? void 0 : cleanupBeforeAbort(); removeListeners(); rejectOnAbort(); } if (abortSignal === null || abortSignal === void 0 ? void 0 : abortSignal.aborted) { return rejectOnAbort(); } try { buildPromise((x) => { removeListeners(); resolve(x); }, (x) => { removeListeners(); reject(x); }); } catch (err) { reject(err); } abortSignal === null || abortSignal === void 0 ? void 0 : abortSignal.addEventListener("abort", onAbort); }); } // Copyright (c) Microsoft Corporation. const StandardAbortMessage = "The delay was aborted."; /** * A wrapper for setTimeout that resolves a promise after timeInMs milliseconds. * @param timeInMs - The number of milliseconds to be delayed. * @param options - The options for delay - currently abort options * @returns Promise that is resolved after timeInMs */ function delay(timeInMs, options) { let token; const { abortSignal, abortErrorMsg } = options !== null && options !== void 0 ? options : {}; return createAbortablePromise((resolve) => { token = setTimeout(resolve, timeInMs); }, { cleanupBeforeAbort: () => clearTimeout(token), abortSignal, abortErrorMsg: abortErrorMsg !== null && abortErrorMsg !== void 0 ? abortErrorMsg : StandardAbortMessage, }); } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /** * Returns a random integer value between a lower and upper bound, * inclusive of both bounds. * Note that this uses Math.random and isn't secure. If you need to use * this for any kind of security purpose, find a better source of random. * @param min - The smallest integer value allowed. * @param max - The largest integer value allowed. */ function getRandomIntegerInclusive(min, max) { // Make sure inputs are integers. min = Math.ceil(min); max = Math.floor(max); // Pick a random offset from zero to the size of the range. // Since Math.random() can never return 1, we have to make the range one larger // in order to be inclusive of the maximum value after we take the floor. const offset = Math.floor(Math.random() * (max - min + 1)); return offset + min; } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /** * Helper to determine when an input is a generic JS object. * @returns true when input is an object type that is not null, Array, RegExp, or Date. */ function isObject(input) { return (typeof input === "object" && input !== null && !Array.isArray(input) && !(input instanceof RegExp) && !(input instanceof Date)); } // Copyright (c) Microsoft Corporation. /** * Typeguard for an error object shape (has name and message) * @param e - Something caught by a catch clause. */ function isError(e) { if (isObject(e)) { const hasName = typeof e.name === "string"; const hasMessage = typeof e.message === "string"; return hasName && hasMessage; } return false; } /** * Given what is thought to be an error object, return the message if possible. * If the message is missing, returns a stringified version of the input. * @param e - Something thrown from a try block * @returns The error message or a string of the input */ function getErrorMessage(e) { if (isError(e)) { return e.message; } else { let stringified; try { if (typeof e === "object" && e) { stringified = JSON.stringify(e); } else { stringified = String(e); } } catch (err) { stringified = "[unable to stringify input]"; } return `Unknown error ${stringified}`; } } // Copyright (c) Microsoft Corporation. /** * Generates a SHA-256 HMAC signature. * @param key - The HMAC key represented as a base64 string, used to generate the cryptographic HMAC hash. * @param stringToSign - The data to be signed. * @param encoding - The textual encoding to use for the returned HMAC digest. */ async function computeSha256Hmac(key, stringToSign, encoding) { const decodedKey = Buffer.from(key, "base64"); return crypto.createHmac("sha256", decodedKey).update(stringToSign).digest(encoding); } /** * Generates a SHA-256 hash. * @param content - The data to be included in the hash. * @param encoding - The textual encoding to use for the returned hash. */ async function computeSha256Hash(content, encoding) { return crypto.createHash("sha256").update(content).digest(encoding); } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /** * Helper TypeGuard that checks if something is defined or not. * @param thing - Anything */ function isDefined(thing) { return typeof thing !== "undefined" && thing !== null; } /** * Helper TypeGuard that checks if the input is an object with the specified properties. * @param thing - Anything. * @param properties - The name of the properties that should appear in the object. */ function isObjectWithProperties(thing, properties) { if (!isDefined(thing) || typeof thing !== "object") { return false; } for (const property of properties) { if (!objectHasProperty(thing, property)) { return false; } } return true; } /** * Helper TypeGuard that checks if the input is an object with the specified property. * @param thing - Any object. * @param property - The name of the property that should appear in the object. */ function objectHasProperty(thing, property) { return (isDefined(thing) && typeof thing === "object" && property in thing); } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. var _a; // NOTE: This is a workaround until we can use `globalThis.crypto.randomUUID` in Node.js 19+. const uuidFunction = typeof ((_a = globalThis === null || globalThis === void 0 ? void 0 : globalThis.crypto) === null || _a === void 0 ? void 0 : _a.randomUUID) === "function" ? globalThis.crypto.randomUUID.bind(globalThis.crypto) : crypto.randomUUID; /** * Generated Universally Unique Identifier * * @returns RFC4122 v4 UUID. */ function randomUUID() { return uuidFunction(); } exports.computeSha256Hash = computeSha256Hash; exports.computeSha256Hmac = computeSha256Hmac; exports.createAbortablePromise = createAbortablePromise; exports.delay = delay; exports.getErrorMessage = getErrorMessage; exports.getRandomIntegerInclusive = getRandomIntegerInclusive; exports.isDefined = isDefined; exports.isError = isError; exports.isNode = isNode; exports.isObject = isObject; exports.isObjectWithProperties = isObjectWithProperties; exports.objectHasProperty = objectHasProperty; exports.randomUUID = randomUUID; //# sourceMappingURL=index.js.map /***/ }), /***/ 3233: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); function _interopDefault (ex) { return (ex && (typeof ex === 'object') && 'default' in ex) ? ex['default'] : ex; } var util = _interopDefault(__nccwpck_require__(73837)); var os = __nccwpck_require__(22037); // Copyright (c) Microsoft Corporation. function log(message, ...args) { process.stderr.write(`${util.format(message, ...args)}${os.EOL}`); } // Copyright (c) Microsoft Corporation. const debugEnvVariable = (typeof process !== "undefined" && process.env && process.env.DEBUG) || undefined; let enabledString; let enabledNamespaces = []; let skippedNamespaces = []; const debuggers = []; if (debugEnvVariable) { enable(debugEnvVariable); } const debugObj = Object.assign((namespace) => { return createDebugger(namespace); }, { enable, enabled, disable, log }); function enable(namespaces) { enabledString = namespaces; enabledNamespaces = []; skippedNamespaces = []; const wildcard = /\*/g; const namespaceList = namespaces.split(",").map((ns) => ns.trim().replace(wildcard, ".*?")); for (const ns of namespaceList) { if (ns.startsWith("-")) { skippedNamespaces.push(new RegExp(`^${ns.substr(1)}$`)); } else { enabledNamespaces.push(new RegExp(`^${ns}$`)); } } for (const instance of debuggers) { instance.enabled = enabled(instance.namespace); } } function enabled(namespace) { if (namespace.endsWith("*")) { return true; } for (const skipped of skippedNamespaces) { if (skipped.test(namespace)) { return false; } } for (const enabledNamespace of enabledNamespaces) { if (enabledNamespace.test(namespace)) { return true; } } return false; } function disable() { const result = enabledString || ""; enable(""); return result; } function createDebugger(namespace) { const newDebugger = Object.assign(debug, { enabled: enabled(namespace), destroy, log: debugObj.log, namespace, extend }); function debug(...args) { if (!newDebugger.enabled) { return; } if (args.length > 0) { args[0] = `${namespace} ${args[0]}`; } newDebugger.log(...args); } debuggers.push(newDebugger); return newDebugger; } function destroy() { const index = debuggers.indexOf(this); if (index >= 0) { debuggers.splice(index, 1); return true; } return false; } function extend(namespace) { const newDebugger = createDebugger(`${this.namespace}:${namespace}`); newDebugger.log = this.log; return newDebugger; } // Copyright (c) Microsoft Corporation. const registeredLoggers = new Set(); const logLevelFromEnv = (typeof process !== "undefined" && process.env && process.env.AZURE_LOG_LEVEL) || undefined; let azureLogLevel; /** * The AzureLogger provides a mechanism for overriding where logs are output to. * By default, logs are sent to stderr. * Override the `log` method to redirect logs to another location. */ const AzureLogger = debugObj("azure"); AzureLogger.log = (...args) => { debugObj.log(...args); }; const AZURE_LOG_LEVELS = ["verbose", "info", "warning", "error"]; if (logLevelFromEnv) { // avoid calling setLogLevel because we don't want a mis-set environment variable to crash if (isAzureLogLevel(logLevelFromEnv)) { setLogLevel(logLevelFromEnv); } else { console.error(`AZURE_LOG_LEVEL set to unknown log level '${logLevelFromEnv}'; logging is not enabled. Acceptable values: ${AZURE_LOG_LEVELS.join(", ")}.`); } } /** * Immediately enables logging at the specified log level. * @param level - The log level to enable for logging. * Options from most verbose to least verbose are: * - verbose * - info * - warning * - error */ function setLogLevel(level) { if (level && !isAzureLogLevel(level)) { throw new Error(`Unknown log level '${level}'. Acceptable values: ${AZURE_LOG_LEVELS.join(",")}`); } azureLogLevel = level; const enabledNamespaces = []; for (const logger of registeredLoggers) { if (shouldEnable(logger)) { enabledNamespaces.push(logger.namespace); } } debugObj.enable(enabledNamespaces.join(",")); } /** * Retrieves the currently specified log level. */ function getLogLevel() { return azureLogLevel; } const levelMap = { verbose: 400, info: 300, warning: 200, error: 100 }; /** * Creates a logger for use by the Azure SDKs that inherits from `AzureLogger`. * @param namespace - The name of the SDK package. * @hidden */ function createClientLogger(namespace) { const clientRootLogger = AzureLogger.extend(namespace); patchLogMethod(AzureLogger, clientRootLogger); return { error: createLogger(clientRootLogger, "error"), warning: createLogger(clientRootLogger, "warning"), info: createLogger(clientRootLogger, "info"), verbose: createLogger(clientRootLogger, "verbose") }; } function patchLogMethod(parent, child) { child.log = (...args) => { parent.log(...args); }; } function createLogger(parent, level) { const logger = Object.assign(parent.extend(level), { level }); patchLogMethod(parent, logger); if (shouldEnable(logger)) { const enabledNamespaces = debugObj.disable(); debugObj.enable(enabledNamespaces + "," + logger.namespace); } registeredLoggers.add(logger); return logger; } function shouldEnable(logger) { if (azureLogLevel && levelMap[logger.level] <= levelMap[azureLogLevel]) { return true; } else { return false; } } function isAzureLogLevel(logLevel) { return AZURE_LOG_LEVELS.includes(logLevel); } exports.AzureLogger = AzureLogger; exports.createClientLogger = createClientLogger; exports.getLogLevel = getLogLevel; exports.setLogLevel = setLogLevel; //# sourceMappingURL=index.js.map /***/ }), /***/ 84100: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var coreHttp = __nccwpck_require__(24607); var tslib = __nccwpck_require__(70679); var coreTracing = __nccwpck_require__(94175); var logger$1 = __nccwpck_require__(3233); var abortController = __nccwpck_require__(52557); var os = __nccwpck_require__(22037); var crypto = __nccwpck_require__(6113); var stream = __nccwpck_require__(12781); __nccwpck_require__(74559); var coreLro = __nccwpck_require__(27094); var events = __nccwpck_require__(82361); var fs = __nccwpck_require__(57147); var util = __nccwpck_require__(73837); function _interopNamespace(e) { if (e && e.__esModule) return e; var n = Object.create(null); if (e) { Object.keys(e).forEach(function (k) { if (k !== 'default') { var d = Object.getOwnPropertyDescriptor(e, k); Object.defineProperty(n, k, d.get ? d : { enumerable: true, get: function () { return e[k]; } }); } }); } n["default"] = e; return Object.freeze(n); } var coreHttp__namespace = /*#__PURE__*/_interopNamespace(coreHttp); var os__namespace = /*#__PURE__*/_interopNamespace(os); var fs__namespace = /*#__PURE__*/_interopNamespace(fs); var util__namespace = /*#__PURE__*/_interopNamespace(util); /* * Copyright (c) Microsoft Corporation. * Licensed under the MIT License. * * Code generated by Microsoft (R) AutoRest Code Generator. * Changes may cause incorrect behavior and will be lost if the code is regenerated. */ const BlobServiceProperties = { serializedName: "BlobServiceProperties", xmlName: "StorageServiceProperties", type: { name: "Composite", className: "BlobServiceProperties", modelProperties: { blobAnalyticsLogging: { serializedName: "Logging", xmlName: "Logging", type: { name: "Composite", className: "Logging" } }, hourMetrics: { serializedName: "HourMetrics", xmlName: "HourMetrics", type: { name: "Composite", className: "Metrics" } }, minuteMetrics: { serializedName: "MinuteMetrics", xmlName: "MinuteMetrics", type: { name: "Composite", className: "Metrics" } }, cors: { serializedName: "Cors", xmlName: "Cors", xmlIsWrapped: true, xmlElementName: "CorsRule", type: { name: "Sequence", element: { type: { name: "Composite", className: "CorsRule" } } } }, defaultServiceVersion: { serializedName: "DefaultServiceVersion", xmlName: "DefaultServiceVersion", type: { name: "String" } }, deleteRetentionPolicy: { serializedName: "DeleteRetentionPolicy", xmlName: "DeleteRetentionPolicy", type: { name: "Composite", className: "RetentionPolicy" } }, staticWebsite: { serializedName: "StaticWebsite", xmlName: "StaticWebsite", type: { name: "Composite", className: "StaticWebsite" } } } } }; const Logging = { serializedName: "Logging", type: { name: "Composite", className: "Logging", modelProperties: { version: { serializedName: "Version", required: true, xmlName: "Version", type: { name: "String" } }, deleteProperty: { serializedName: "Delete", required: true, xmlName: "Delete", type: { name: "Boolean" } }, read: { serializedName: "Read", required: true, xmlName: "Read", type: { name: "Boolean" } }, write: { serializedName: "Write", required: true, xmlName: "Write", type: { name: "Boolean" } }, retentionPolicy: { serializedName: "RetentionPolicy", xmlName: "RetentionPolicy", type: { name: "Composite", className: "RetentionPolicy" } } } } }; const RetentionPolicy = { serializedName: "RetentionPolicy", type: { name: "Composite", className: "RetentionPolicy", modelProperties: { enabled: { serializedName: "Enabled", required: true, xmlName: "Enabled", type: { name: "Boolean" } }, days: { constraints: { InclusiveMinimum: 1 }, serializedName: "Days", xmlName: "Days", type: { name: "Number" } } } } }; const Metrics = { serializedName: "Metrics", type: { name: "Composite", className: "Metrics", modelProperties: { version: { serializedName: "Version", xmlName: "Version", type: { name: "String" } }, enabled: { serializedName: "Enabled", required: true, xmlName: "Enabled", type: { name: "Boolean" } }, includeAPIs: { serializedName: "IncludeAPIs", xmlName: "IncludeAPIs", type: { name: "Boolean" } }, retentionPolicy: { serializedName: "RetentionPolicy", xmlName: "RetentionPolicy", type: { name: "Composite", className: "RetentionPolicy" } } } } }; const CorsRule = { serializedName: "CorsRule", type: { name: "Composite", className: "CorsRule", modelProperties: { allowedOrigins: { serializedName: "AllowedOrigins", required: true, xmlName: "AllowedOrigins", type: { name: "String" } }, allowedMethods: { serializedName: "AllowedMethods", required: true, xmlName: "AllowedMethods", type: { name: "String" } }, allowedHeaders: { serializedName: "AllowedHeaders", required: true, xmlName: "AllowedHeaders", type: { name: "String" } }, exposedHeaders: { serializedName: "ExposedHeaders", required: true, xmlName: "ExposedHeaders", type: { name: "String" } }, maxAgeInSeconds: { constraints: { InclusiveMinimum: 0 }, serializedName: "MaxAgeInSeconds", required: true, xmlName: "MaxAgeInSeconds", type: { name: "Number" } } } } }; const StaticWebsite = { serializedName: "StaticWebsite", type: { name: "Composite", className: "StaticWebsite", modelProperties: { enabled: { serializedName: "Enabled", required: true, xmlName: "Enabled", type: { name: "Boolean" } }, indexDocument: { serializedName: "IndexDocument", xmlName: "IndexDocument", type: { name: "String" } }, errorDocument404Path: { serializedName: "ErrorDocument404Path", xmlName: "ErrorDocument404Path", type: { name: "String" } }, defaultIndexDocumentPath: { serializedName: "DefaultIndexDocumentPath", xmlName: "DefaultIndexDocumentPath", type: { name: "String" } } } } }; const StorageError = { serializedName: "StorageError", type: { name: "Composite", className: "StorageError", modelProperties: { message: { serializedName: "Message", xmlName: "Message", type: { name: "String" } }, code: { serializedName: "Code", xmlName: "Code", type: { name: "String" } } } } }; const BlobServiceStatistics = { serializedName: "BlobServiceStatistics", xmlName: "StorageServiceStats", type: { name: "Composite", className: "BlobServiceStatistics", modelProperties: { geoReplication: { serializedName: "GeoReplication", xmlName: "GeoReplication", type: { name: "Composite", className: "GeoReplication" } } } } }; const GeoReplication = { serializedName: "GeoReplication", type: { name: "Composite", className: "GeoReplication", modelProperties: { status: { serializedName: "Status", required: true, xmlName: "Status", type: { name: "Enum", allowedValues: ["live", "bootstrap", "unavailable"] } }, lastSyncOn: { serializedName: "LastSyncTime", required: true, xmlName: "LastSyncTime", type: { name: "DateTimeRfc1123" } } } } }; const ListContainersSegmentResponse = { serializedName: "ListContainersSegmentResponse", xmlName: "EnumerationResults", type: { name: "Composite", className: "ListContainersSegmentResponse", modelProperties: { serviceEndpoint: { serializedName: "ServiceEndpoint", required: true, xmlName: "ServiceEndpoint", xmlIsAttribute: true, type: { name: "String" } }, prefix: { serializedName: "Prefix", xmlName: "Prefix", type: { name: "String" } }, marker: { serializedName: "Marker", xmlName: "Marker", type: { name: "String" } }, maxPageSize: { serializedName: "MaxResults", xmlName: "MaxResults", type: { name: "Number" } }, containerItems: { serializedName: "ContainerItems", required: true, xmlName: "Containers", xmlIsWrapped: true, xmlElementName: "Container", type: { name: "Sequence", element: { type: { name: "Composite", className: "ContainerItem" } } } }, continuationToken: { serializedName: "NextMarker", xmlName: "NextMarker", type: { name: "String" } } } } }; const ContainerItem = { serializedName: "ContainerItem", xmlName: "Container", type: { name: "Composite", className: "ContainerItem", modelProperties: { name: { serializedName: "Name", required: true, xmlName: "Name", type: { name: "String" } }, deleted: { serializedName: "Deleted", xmlName: "Deleted", type: { name: "Boolean" } }, version: { serializedName: "Version", xmlName: "Version", type: { name: "String" } }, properties: { serializedName: "Properties", xmlName: "Properties", type: { name: "Composite", className: "ContainerProperties" } }, metadata: { serializedName: "Metadata", xmlName: "Metadata", type: { name: "Dictionary", value: { type: { name: "String" } } } } } } }; const ContainerProperties = { serializedName: "ContainerProperties", type: { name: "Composite", className: "ContainerProperties", modelProperties: { lastModified: { serializedName: "Last-Modified", required: true, xmlName: "Last-Modified", type: { name: "DateTimeRfc1123" } }, etag: { serializedName: "Etag", required: true, xmlName: "Etag", type: { name: "String" } }, leaseStatus: { serializedName: "LeaseStatus", xmlName: "LeaseStatus", type: { name: "Enum", allowedValues: ["locked", "unlocked"] } }, leaseState: { serializedName: "LeaseState", xmlName: "LeaseState", type: { name: "Enum", allowedValues: [ "available", "leased", "expired", "breaking", "broken" ] } }, leaseDuration: { serializedName: "LeaseDuration", xmlName: "LeaseDuration", type: { name: "Enum", allowedValues: ["infinite", "fixed"] } }, publicAccess: { serializedName: "PublicAccess", xmlName: "PublicAccess", type: { name: "Enum", allowedValues: ["container", "blob"] } }, hasImmutabilityPolicy: { serializedName: "HasImmutabilityPolicy", xmlName: "HasImmutabilityPolicy", type: { name: "Boolean" } }, hasLegalHold: { serializedName: "HasLegalHold", xmlName: "HasLegalHold", type: { name: "Boolean" } }, defaultEncryptionScope: { serializedName: "DefaultEncryptionScope", xmlName: "DefaultEncryptionScope", type: { name: "String" } }, preventEncryptionScopeOverride: { serializedName: "DenyEncryptionScopeOverride", xmlName: "DenyEncryptionScopeOverride", type: { name: "Boolean" } }, deletedOn: { serializedName: "DeletedTime", xmlName: "DeletedTime", type: { name: "DateTimeRfc1123" } }, remainingRetentionDays: { serializedName: "RemainingRetentionDays", xmlName: "RemainingRetentionDays", type: { name: "Number" } }, isImmutableStorageWithVersioningEnabled: { serializedName: "ImmutableStorageWithVersioningEnabled", xmlName: "ImmutableStorageWithVersioningEnabled", type: { name: "Boolean" } } } } }; const KeyInfo = { serializedName: "KeyInfo", type: { name: "Composite", className: "KeyInfo", modelProperties: { startsOn: { serializedName: "Start", required: true, xmlName: "Start", type: { name: "String" } }, expiresOn: { serializedName: "Expiry", required: true, xmlName: "Expiry", type: { name: "String" } } } } }; const UserDelegationKey = { serializedName: "UserDelegationKey", type: { name: "Composite", className: "UserDelegationKey", modelProperties: { signedObjectId: { serializedName: "SignedOid", required: true, xmlName: "SignedOid", type: { name: "String" } }, signedTenantId: { serializedName: "SignedTid", required: true, xmlName: "SignedTid", type: { name: "String" } }, signedStartsOn: { serializedName: "SignedStart", required: true, xmlName: "SignedStart", type: { name: "String" } }, signedExpiresOn: { serializedName: "SignedExpiry", required: true, xmlName: "SignedExpiry", type: { name: "String" } }, signedService: { serializedName: "SignedService", required: true, xmlName: "SignedService", type: { name: "String" } }, signedVersion: { serializedName: "SignedVersion", required: true, xmlName: "SignedVersion", type: { name: "String" } }, value: { serializedName: "Value", required: true, xmlName: "Value", type: { name: "String" } } } } }; const FilterBlobSegment = { serializedName: "FilterBlobSegment", xmlName: "EnumerationResults", type: { name: "Composite", className: "FilterBlobSegment", modelProperties: { serviceEndpoint: { serializedName: "ServiceEndpoint", required: true, xmlName: "ServiceEndpoint", xmlIsAttribute: true, type: { name: "String" } }, where: { serializedName: "Where", required: true, xmlName: "Where", type: { name: "String" } }, blobs: { serializedName: "Blobs", required: true, xmlName: "Blobs", xmlIsWrapped: true, xmlElementName: "Blob", type: { name: "Sequence", element: { type: { name: "Composite", className: "FilterBlobItem" } } } }, continuationToken: { serializedName: "NextMarker", xmlName: "NextMarker", type: { name: "String" } } } } }; const FilterBlobItem = { serializedName: "FilterBlobItem", xmlName: "Blob", type: { name: "Composite", className: "FilterBlobItem", modelProperties: { name: { serializedName: "Name", required: true, xmlName: "Name", type: { name: "String" } }, containerName: { serializedName: "ContainerName", required: true, xmlName: "ContainerName", type: { name: "String" } }, tags: { serializedName: "Tags", xmlName: "Tags", type: { name: "Composite", className: "BlobTags" } } } } }; const BlobTags = { serializedName: "BlobTags", xmlName: "Tags", type: { name: "Composite", className: "BlobTags", modelProperties: { blobTagSet: { serializedName: "BlobTagSet", required: true, xmlName: "TagSet", xmlIsWrapped: true, xmlElementName: "Tag", type: { name: "Sequence", element: { type: { name: "Composite", className: "BlobTag" } } } } } } }; const BlobTag = { serializedName: "BlobTag", xmlName: "Tag", type: { name: "Composite", className: "BlobTag", modelProperties: { key: { serializedName: "Key", required: true, xmlName: "Key", type: { name: "String" } }, value: { serializedName: "Value", required: true, xmlName: "Value", type: { name: "String" } } } } }; const SignedIdentifier = { serializedName: "SignedIdentifier", xmlName: "SignedIdentifier", type: { name: "Composite", className: "SignedIdentifier", modelProperties: { id: { serializedName: "Id", required: true, xmlName: "Id", type: { name: "String" } }, accessPolicy: { serializedName: "AccessPolicy", xmlName: "AccessPolicy", type: { name: "Composite", className: "AccessPolicy" } } } } }; const AccessPolicy = { serializedName: "AccessPolicy", type: { name: "Composite", className: "AccessPolicy", modelProperties: { startsOn: { serializedName: "Start", xmlName: "Start", type: { name: "String" } }, expiresOn: { serializedName: "Expiry", xmlName: "Expiry", type: { name: "String" } }, permissions: { serializedName: "Permission", xmlName: "Permission", type: { name: "String" } } } } }; const ListBlobsFlatSegmentResponse = { serializedName: "ListBlobsFlatSegmentResponse", xmlName: "EnumerationResults", type: { name: "Composite", className: "ListBlobsFlatSegmentResponse", modelProperties: { serviceEndpoint: { serializedName: "ServiceEndpoint", required: true, xmlName: "ServiceEndpoint", xmlIsAttribute: true, type: { name: "String" } }, containerName: { serializedName: "ContainerName", required: true, xmlName: "ContainerName", xmlIsAttribute: true, type: { name: "String" } }, prefix: { serializedName: "Prefix", xmlName: "Prefix", type: { name: "String" } }, marker: { serializedName: "Marker", xmlName: "Marker", type: { name: "String" } }, maxPageSize: { serializedName: "MaxResults", xmlName: "MaxResults", type: { name: "Number" } }, segment: { serializedName: "Segment", xmlName: "Blobs", type: { name: "Composite", className: "BlobFlatListSegment" } }, continuationToken: { serializedName: "NextMarker", xmlName: "NextMarker", type: { name: "String" } } } } }; const BlobFlatListSegment = { serializedName: "BlobFlatListSegment", xmlName: "Blobs", type: { name: "Composite", className: "BlobFlatListSegment", modelProperties: { blobItems: { serializedName: "BlobItems", required: true, xmlName: "BlobItems", xmlElementName: "Blob", type: { name: "Sequence", element: { type: { name: "Composite", className: "BlobItemInternal" } } } } } } }; const BlobItemInternal = { serializedName: "BlobItemInternal", xmlName: "Blob", type: { name: "Composite", className: "BlobItemInternal", modelProperties: { name: { serializedName: "Name", xmlName: "Name", type: { name: "Composite", className: "BlobName" } }, deleted: { serializedName: "Deleted", required: true, xmlName: "Deleted", type: { name: "Boolean" } }, snapshot: { serializedName: "Snapshot", required: true, xmlName: "Snapshot", type: { name: "String" } }, versionId: { serializedName: "VersionId", xmlName: "VersionId", type: { name: "String" } }, isCurrentVersion: { serializedName: "IsCurrentVersion", xmlName: "IsCurrentVersion", type: { name: "Boolean" } }, properties: { serializedName: "Properties", xmlName: "Properties", type: { name: "Composite", className: "BlobPropertiesInternal" } }, metadata: { serializedName: "Metadata", xmlName: "Metadata", type: { name: "Dictionary", value: { type: { name: "String" } } } }, blobTags: { serializedName: "BlobTags", xmlName: "Tags", type: { name: "Composite", className: "BlobTags" } }, objectReplicationMetadata: { serializedName: "ObjectReplicationMetadata", xmlName: "OrMetadata", type: { name: "Dictionary", value: { type: { name: "String" } } } }, hasVersionsOnly: { serializedName: "HasVersionsOnly", xmlName: "HasVersionsOnly", type: { name: "Boolean" } } } } }; const BlobName = { serializedName: "BlobName", type: { name: "Composite", className: "BlobName", modelProperties: { encoded: { serializedName: "Encoded", xmlName: "Encoded", xmlIsAttribute: true, type: { name: "Boolean" } }, content: { serializedName: "content", xmlName: "content", xmlIsMsText: true, type: { name: "String" } } } } }; const BlobPropertiesInternal = { serializedName: "BlobPropertiesInternal", xmlName: "Properties", type: { name: "Composite", className: "BlobPropertiesInternal", modelProperties: { createdOn: { serializedName: "Creation-Time", xmlName: "Creation-Time", type: { name: "DateTimeRfc1123" } }, lastModified: { serializedName: "Last-Modified", required: true, xmlName: "Last-Modified", type: { name: "DateTimeRfc1123" } }, etag: { serializedName: "Etag", required: true, xmlName: "Etag", type: { name: "String" } }, contentLength: { serializedName: "Content-Length", xmlName: "Content-Length", type: { name: "Number" } }, contentType: { serializedName: "Content-Type", xmlName: "Content-Type", type: { name: "String" } }, contentEncoding: { serializedName: "Content-Encoding", xmlName: "Content-Encoding", type: { name: "String" } }, contentLanguage: { serializedName: "Content-Language", xmlName: "Content-Language", type: { name: "String" } }, contentMD5: { serializedName: "Content-MD5", xmlName: "Content-MD5", type: { name: "ByteArray" } }, contentDisposition: { serializedName: "Content-Disposition", xmlName: "Content-Disposition", type: { name: "String" } }, cacheControl: { serializedName: "Cache-Control", xmlName: "Cache-Control", type: { name: "String" } }, blobSequenceNumber: { serializedName: "x-ms-blob-sequence-number", xmlName: "x-ms-blob-sequence-number", type: { name: "Number" } }, blobType: { serializedName: "BlobType", xmlName: "BlobType", type: { name: "Enum", allowedValues: ["BlockBlob", "PageBlob", "AppendBlob"] } }, leaseStatus: { serializedName: "LeaseStatus", xmlName: "LeaseStatus", type: { name: "Enum", allowedValues: ["locked", "unlocked"] } }, leaseState: { serializedName: "LeaseState", xmlName: "LeaseState", type: { name: "Enum", allowedValues: [ "available", "leased", "expired", "breaking", "broken" ] } }, leaseDuration: { serializedName: "LeaseDuration", xmlName: "LeaseDuration", type: { name: "Enum", allowedValues: ["infinite", "fixed"] } }, copyId: { serializedName: "CopyId", xmlName: "CopyId", type: { name: "String" } }, copyStatus: { serializedName: "CopyStatus", xmlName: "CopyStatus", type: { name: "Enum", allowedValues: ["pending", "success", "aborted", "failed"] } }, copySource: { serializedName: "CopySource", xmlName: "CopySource", type: { name: "String" } }, copyProgress: { serializedName: "CopyProgress", xmlName: "CopyProgress", type: { name: "String" } }, copyCompletedOn: { serializedName: "CopyCompletionTime", xmlName: "CopyCompletionTime", type: { name: "DateTimeRfc1123" } }, copyStatusDescription: { serializedName: "CopyStatusDescription", xmlName: "CopyStatusDescription", type: { name: "String" } }, serverEncrypted: { serializedName: "ServerEncrypted", xmlName: "ServerEncrypted", type: { name: "Boolean" } }, incrementalCopy: { serializedName: "IncrementalCopy", xmlName: "IncrementalCopy", type: { name: "Boolean" } }, destinationSnapshot: { serializedName: "DestinationSnapshot", xmlName: "DestinationSnapshot", type: { name: "String" } }, deletedOn: { serializedName: "DeletedTime", xmlName: "DeletedTime", type: { name: "DateTimeRfc1123" } }, remainingRetentionDays: { serializedName: "RemainingRetentionDays", xmlName: "RemainingRetentionDays", type: { name: "Number" } }, accessTier: { serializedName: "AccessTier", xmlName: "AccessTier", type: { name: "Enum", allowedValues: [ "P4", "P6", "P10", "P15", "P20", "P30", "P40", "P50", "P60", "P70", "P80", "Hot", "Cool", "Archive", "Cold" ] } }, accessTierInferred: { serializedName: "AccessTierInferred", xmlName: "AccessTierInferred", type: { name: "Boolean" } }, archiveStatus: { serializedName: "ArchiveStatus", xmlName: "ArchiveStatus", type: { name: "Enum", allowedValues: [ "rehydrate-pending-to-hot", "rehydrate-pending-to-cool" ] } }, customerProvidedKeySha256: { serializedName: "CustomerProvidedKeySha256", xmlName: "CustomerProvidedKeySha256", type: { name: "String" } }, encryptionScope: { serializedName: "EncryptionScope", xmlName: "EncryptionScope", type: { name: "String" } }, accessTierChangedOn: { serializedName: "AccessTierChangeTime", xmlName: "AccessTierChangeTime", type: { name: "DateTimeRfc1123" } }, tagCount: { serializedName: "TagCount", xmlName: "TagCount", type: { name: "Number" } }, expiresOn: { serializedName: "Expiry-Time", xmlName: "Expiry-Time", type: { name: "DateTimeRfc1123" } }, isSealed: { serializedName: "Sealed", xmlName: "Sealed", type: { name: "Boolean" } }, rehydratePriority: { serializedName: "RehydratePriority", xmlName: "RehydratePriority", type: { name: "Enum", allowedValues: ["High", "Standard"] } }, lastAccessedOn: { serializedName: "LastAccessTime", xmlName: "LastAccessTime", type: { name: "DateTimeRfc1123" } }, immutabilityPolicyExpiresOn: { serializedName: "ImmutabilityPolicyUntilDate", xmlName: "ImmutabilityPolicyUntilDate", type: { name: "DateTimeRfc1123" } }, immutabilityPolicyMode: { serializedName: "ImmutabilityPolicyMode", xmlName: "ImmutabilityPolicyMode", type: { name: "Enum", allowedValues: ["Mutable", "Unlocked", "Locked"] } }, legalHold: { serializedName: "LegalHold", xmlName: "LegalHold", type: { name: "Boolean" } } } } }; const ListBlobsHierarchySegmentResponse = { serializedName: "ListBlobsHierarchySegmentResponse", xmlName: "EnumerationResults", type: { name: "Composite", className: "ListBlobsHierarchySegmentResponse", modelProperties: { serviceEndpoint: { serializedName: "ServiceEndpoint", required: true, xmlName: "ServiceEndpoint", xmlIsAttribute: true, type: { name: "String" } }, containerName: { serializedName: "ContainerName", required: true, xmlName: "ContainerName", xmlIsAttribute: true, type: { name: "String" } }, prefix: { serializedName: "Prefix", xmlName: "Prefix", type: { name: "String" } }, marker: { serializedName: "Marker", xmlName: "Marker", type: { name: "String" } }, maxPageSize: { serializedName: "MaxResults", xmlName: "MaxResults", type: { name: "Number" } }, delimiter: { serializedName: "Delimiter", xmlName: "Delimiter", type: { name: "String" } }, segment: { serializedName: "Segment", xmlName: "Blobs", type: { name: "Composite", className: "BlobHierarchyListSegment" } }, continuationToken: { serializedName: "NextMarker", xmlName: "NextMarker", type: { name: "String" } } } } }; const BlobHierarchyListSegment = { serializedName: "BlobHierarchyListSegment", xmlName: "Blobs", type: { name: "Composite", className: "BlobHierarchyListSegment", modelProperties: { blobPrefixes: { serializedName: "BlobPrefixes", xmlName: "BlobPrefixes", xmlElementName: "BlobPrefix", type: { name: "Sequence", element: { type: { name: "Composite", className: "BlobPrefix" } } } }, blobItems: { serializedName: "BlobItems", required: true, xmlName: "BlobItems", xmlElementName: "Blob", type: { name: "Sequence", element: { type: { name: "Composite", className: "BlobItemInternal" } } } } } } }; const BlobPrefix = { serializedName: "BlobPrefix", type: { name: "Composite", className: "BlobPrefix", modelProperties: { name: { serializedName: "Name", xmlName: "Name", type: { name: "Composite", className: "BlobName" } } } } }; const BlockLookupList = { serializedName: "BlockLookupList", xmlName: "BlockList", type: { name: "Composite", className: "BlockLookupList", modelProperties: { committed: { serializedName: "Committed", xmlName: "Committed", xmlElementName: "Committed", type: { name: "Sequence", element: { type: { name: "String" } } } }, uncommitted: { serializedName: "Uncommitted", xmlName: "Uncommitted", xmlElementName: "Uncommitted", type: { name: "Sequence", element: { type: { name: "String" } } } }, latest: { serializedName: "Latest", xmlName: "Latest", xmlElementName: "Latest", type: { name: "Sequence", element: { type: { name: "String" } } } } } } }; const BlockList = { serializedName: "BlockList", type: { name: "Composite", className: "BlockList", modelProperties: { committedBlocks: { serializedName: "CommittedBlocks", xmlName: "CommittedBlocks", xmlIsWrapped: true, xmlElementName: "Block", type: { name: "Sequence", element: { type: { name: "Composite", className: "Block" } } } }, uncommittedBlocks: { serializedName: "UncommittedBlocks", xmlName: "UncommittedBlocks", xmlIsWrapped: true, xmlElementName: "Block", type: { name: "Sequence", element: { type: { name: "Composite", className: "Block" } } } } } } }; const Block = { serializedName: "Block", type: { name: "Composite", className: "Block", modelProperties: { name: { serializedName: "Name", required: true, xmlName: "Name", type: { name: "String" } }, size: { serializedName: "Size", required: true, xmlName: "Size", type: { name: "Number" } } } } }; const PageList = { serializedName: "PageList", type: { name: "Composite", className: "PageList", modelProperties: { pageRange: { serializedName: "PageRange", xmlName: "PageRange", xmlElementName: "PageRange", type: { name: "Sequence", element: { type: { name: "Composite", className: "PageRange" } } } }, clearRange: { serializedName: "ClearRange", xmlName: "ClearRange", xmlElementName: "ClearRange", type: { name: "Sequence", element: { type: { name: "Composite", className: "ClearRange" } } } }, continuationToken: { serializedName: "NextMarker", xmlName: "NextMarker", type: { name: "String" } } } } }; const PageRange = { serializedName: "PageRange", xmlName: "PageRange", type: { name: "Composite", className: "PageRange", modelProperties: { start: { serializedName: "Start", required: true, xmlName: "Start", type: { name: "Number" } }, end: { serializedName: "End", required: true, xmlName: "End", type: { name: "Number" } } } } }; const ClearRange = { serializedName: "ClearRange", xmlName: "ClearRange", type: { name: "Composite", className: "ClearRange", modelProperties: { start: { serializedName: "Start", required: true, xmlName: "Start", type: { name: "Number" } }, end: { serializedName: "End", required: true, xmlName: "End", type: { name: "Number" } } } } }; const QueryRequest = { serializedName: "QueryRequest", xmlName: "QueryRequest", type: { name: "Composite", className: "QueryRequest", modelProperties: { queryType: { serializedName: "QueryType", required: true, xmlName: "QueryType", type: { name: "String" } }, expression: { serializedName: "Expression", required: true, xmlName: "Expression", type: { name: "String" } }, inputSerialization: { serializedName: "InputSerialization", xmlName: "InputSerialization", type: { name: "Composite", className: "QuerySerialization" } }, outputSerialization: { serializedName: "OutputSerialization", xmlName: "OutputSerialization", type: { name: "Composite", className: "QuerySerialization" } } } } }; const QuerySerialization = { serializedName: "QuerySerialization", type: { name: "Composite", className: "QuerySerialization", modelProperties: { format: { serializedName: "Format", xmlName: "Format", type: { name: "Composite", className: "QueryFormat" } } } } }; const QueryFormat = { serializedName: "QueryFormat", type: { name: "Composite", className: "QueryFormat", modelProperties: { type: { serializedName: "Type", required: true, xmlName: "Type", type: { name: "Enum", allowedValues: ["delimited", "json", "arrow", "parquet"] } }, delimitedTextConfiguration: { serializedName: "DelimitedTextConfiguration", xmlName: "DelimitedTextConfiguration", type: { name: "Composite", className: "DelimitedTextConfiguration" } }, jsonTextConfiguration: { serializedName: "JsonTextConfiguration", xmlName: "JsonTextConfiguration", type: { name: "Composite", className: "JsonTextConfiguration" } }, arrowConfiguration: { serializedName: "ArrowConfiguration", xmlName: "ArrowConfiguration", type: { name: "Composite", className: "ArrowConfiguration" } }, parquetTextConfiguration: { serializedName: "ParquetTextConfiguration", xmlName: "ParquetTextConfiguration", type: { name: "any" } } } } }; const DelimitedTextConfiguration = { serializedName: "DelimitedTextConfiguration", xmlName: "DelimitedTextConfiguration", type: { name: "Composite", className: "DelimitedTextConfiguration", modelProperties: { columnSeparator: { serializedName: "ColumnSeparator", xmlName: "ColumnSeparator", type: { name: "String" } }, fieldQuote: { serializedName: "FieldQuote", xmlName: "FieldQuote", type: { name: "String" } }, recordSeparator: { serializedName: "RecordSeparator", xmlName: "RecordSeparator", type: { name: "String" } }, escapeChar: { serializedName: "EscapeChar", xmlName: "EscapeChar", type: { name: "String" } }, headersPresent: { serializedName: "HeadersPresent", xmlName: "HasHeaders", type: { name: "Boolean" } } } } }; const JsonTextConfiguration = { serializedName: "JsonTextConfiguration", xmlName: "JsonTextConfiguration", type: { name: "Composite", className: "JsonTextConfiguration", modelProperties: { recordSeparator: { serializedName: "RecordSeparator", xmlName: "RecordSeparator", type: { name: "String" } } } } }; const ArrowConfiguration = { serializedName: "ArrowConfiguration", xmlName: "ArrowConfiguration", type: { name: "Composite", className: "ArrowConfiguration", modelProperties: { schema: { serializedName: "Schema", required: true, xmlName: "Schema", xmlIsWrapped: true, xmlElementName: "Field", type: { name: "Sequence", element: { type: { name: "Composite", className: "ArrowField" } } } } } } }; const ArrowField = { serializedName: "ArrowField", xmlName: "Field", type: { name: "Composite", className: "ArrowField", modelProperties: { type: { serializedName: "Type", required: true, xmlName: "Type", type: { name: "String" } }, name: { serializedName: "Name", xmlName: "Name", type: { name: "String" } }, precision: { serializedName: "Precision", xmlName: "Precision", type: { name: "Number" } }, scale: { serializedName: "Scale", xmlName: "Scale", type: { name: "Number" } } } } }; const ServiceSetPropertiesHeaders = { serializedName: "Service_setPropertiesHeaders", type: { name: "Composite", className: "ServiceSetPropertiesHeaders", modelProperties: { clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ServiceSetPropertiesExceptionHeaders = { serializedName: "Service_setPropertiesExceptionHeaders", type: { name: "Composite", className: "ServiceSetPropertiesExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ServiceGetPropertiesHeaders = { serializedName: "Service_getPropertiesHeaders", type: { name: "Composite", className: "ServiceGetPropertiesHeaders", modelProperties: { clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ServiceGetPropertiesExceptionHeaders = { serializedName: "Service_getPropertiesExceptionHeaders", type: { name: "Composite", className: "ServiceGetPropertiesExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ServiceGetStatisticsHeaders = { serializedName: "Service_getStatisticsHeaders", type: { name: "Composite", className: "ServiceGetStatisticsHeaders", modelProperties: { clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ServiceGetStatisticsExceptionHeaders = { serializedName: "Service_getStatisticsExceptionHeaders", type: { name: "Composite", className: "ServiceGetStatisticsExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ServiceListContainersSegmentHeaders = { serializedName: "Service_listContainersSegmentHeaders", type: { name: "Composite", className: "ServiceListContainersSegmentHeaders", modelProperties: { clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ServiceListContainersSegmentExceptionHeaders = { serializedName: "Service_listContainersSegmentExceptionHeaders", type: { name: "Composite", className: "ServiceListContainersSegmentExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ServiceGetUserDelegationKeyHeaders = { serializedName: "Service_getUserDelegationKeyHeaders", type: { name: "Composite", className: "ServiceGetUserDelegationKeyHeaders", modelProperties: { clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ServiceGetUserDelegationKeyExceptionHeaders = { serializedName: "Service_getUserDelegationKeyExceptionHeaders", type: { name: "Composite", className: "ServiceGetUserDelegationKeyExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ServiceGetAccountInfoHeaders = { serializedName: "Service_getAccountInfoHeaders", type: { name: "Composite", className: "ServiceGetAccountInfoHeaders", modelProperties: { clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, skuName: { serializedName: "x-ms-sku-name", xmlName: "x-ms-sku-name", type: { name: "Enum", allowedValues: [ "Standard_LRS", "Standard_GRS", "Standard_RAGRS", "Standard_ZRS", "Premium_LRS" ] } }, accountKind: { serializedName: "x-ms-account-kind", xmlName: "x-ms-account-kind", type: { name: "Enum", allowedValues: [ "Storage", "BlobStorage", "StorageV2", "FileStorage", "BlockBlobStorage" ] } }, isHierarchicalNamespaceEnabled: { serializedName: "x-ms-is-hns-enabled", xmlName: "x-ms-is-hns-enabled", type: { name: "Boolean" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ServiceGetAccountInfoExceptionHeaders = { serializedName: "Service_getAccountInfoExceptionHeaders", type: { name: "Composite", className: "ServiceGetAccountInfoExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ServiceSubmitBatchHeaders = { serializedName: "Service_submitBatchHeaders", type: { name: "Composite", className: "ServiceSubmitBatchHeaders", modelProperties: { contentType: { serializedName: "content-type", xmlName: "content-type", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ServiceSubmitBatchExceptionHeaders = { serializedName: "Service_submitBatchExceptionHeaders", type: { name: "Composite", className: "ServiceSubmitBatchExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ServiceFilterBlobsHeaders = { serializedName: "Service_filterBlobsHeaders", type: { name: "Composite", className: "ServiceFilterBlobsHeaders", modelProperties: { clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ServiceFilterBlobsExceptionHeaders = { serializedName: "Service_filterBlobsExceptionHeaders", type: { name: "Composite", className: "ServiceFilterBlobsExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ContainerCreateHeaders = { serializedName: "Container_createHeaders", type: { name: "Composite", className: "ContainerCreateHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ContainerCreateExceptionHeaders = { serializedName: "Container_createExceptionHeaders", type: { name: "Composite", className: "ContainerCreateExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ContainerGetPropertiesHeaders = { serializedName: "Container_getPropertiesHeaders", type: { name: "Composite", className: "ContainerGetPropertiesHeaders", modelProperties: { metadata: { serializedName: "x-ms-meta", xmlName: "x-ms-meta", type: { name: "Dictionary", value: { type: { name: "String" } } }, headerCollectionPrefix: "x-ms-meta-" }, etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, leaseDuration: { serializedName: "x-ms-lease-duration", xmlName: "x-ms-lease-duration", type: { name: "Enum", allowedValues: ["infinite", "fixed"] } }, leaseState: { serializedName: "x-ms-lease-state", xmlName: "x-ms-lease-state", type: { name: "Enum", allowedValues: [ "available", "leased", "expired", "breaking", "broken" ] } }, leaseStatus: { serializedName: "x-ms-lease-status", xmlName: "x-ms-lease-status", type: { name: "Enum", allowedValues: ["locked", "unlocked"] } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, blobPublicAccess: { serializedName: "x-ms-blob-public-access", xmlName: "x-ms-blob-public-access", type: { name: "Enum", allowedValues: ["container", "blob"] } }, hasImmutabilityPolicy: { serializedName: "x-ms-has-immutability-policy", xmlName: "x-ms-has-immutability-policy", type: { name: "Boolean" } }, hasLegalHold: { serializedName: "x-ms-has-legal-hold", xmlName: "x-ms-has-legal-hold", type: { name: "Boolean" } }, defaultEncryptionScope: { serializedName: "x-ms-default-encryption-scope", xmlName: "x-ms-default-encryption-scope", type: { name: "String" } }, denyEncryptionScopeOverride: { serializedName: "x-ms-deny-encryption-scope-override", xmlName: "x-ms-deny-encryption-scope-override", type: { name: "Boolean" } }, isImmutableStorageWithVersioningEnabled: { serializedName: "x-ms-immutable-storage-with-versioning-enabled", xmlName: "x-ms-immutable-storage-with-versioning-enabled", type: { name: "Boolean" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ContainerGetPropertiesExceptionHeaders = { serializedName: "Container_getPropertiesExceptionHeaders", type: { name: "Composite", className: "ContainerGetPropertiesExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ContainerDeleteHeaders = { serializedName: "Container_deleteHeaders", type: { name: "Composite", className: "ContainerDeleteHeaders", modelProperties: { clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ContainerDeleteExceptionHeaders = { serializedName: "Container_deleteExceptionHeaders", type: { name: "Composite", className: "ContainerDeleteExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ContainerSetMetadataHeaders = { serializedName: "Container_setMetadataHeaders", type: { name: "Composite", className: "ContainerSetMetadataHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ContainerSetMetadataExceptionHeaders = { serializedName: "Container_setMetadataExceptionHeaders", type: { name: "Composite", className: "ContainerSetMetadataExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ContainerGetAccessPolicyHeaders = { serializedName: "Container_getAccessPolicyHeaders", type: { name: "Composite", className: "ContainerGetAccessPolicyHeaders", modelProperties: { blobPublicAccess: { serializedName: "x-ms-blob-public-access", xmlName: "x-ms-blob-public-access", type: { name: "Enum", allowedValues: ["container", "blob"] } }, etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ContainerGetAccessPolicyExceptionHeaders = { serializedName: "Container_getAccessPolicyExceptionHeaders", type: { name: "Composite", className: "ContainerGetAccessPolicyExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ContainerSetAccessPolicyHeaders = { serializedName: "Container_setAccessPolicyHeaders", type: { name: "Composite", className: "ContainerSetAccessPolicyHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ContainerSetAccessPolicyExceptionHeaders = { serializedName: "Container_setAccessPolicyExceptionHeaders", type: { name: "Composite", className: "ContainerSetAccessPolicyExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ContainerRestoreHeaders = { serializedName: "Container_restoreHeaders", type: { name: "Composite", className: "ContainerRestoreHeaders", modelProperties: { clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ContainerRestoreExceptionHeaders = { serializedName: "Container_restoreExceptionHeaders", type: { name: "Composite", className: "ContainerRestoreExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ContainerRenameHeaders = { serializedName: "Container_renameHeaders", type: { name: "Composite", className: "ContainerRenameHeaders", modelProperties: { clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ContainerRenameExceptionHeaders = { serializedName: "Container_renameExceptionHeaders", type: { name: "Composite", className: "ContainerRenameExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ContainerSubmitBatchHeaders = { serializedName: "Container_submitBatchHeaders", type: { name: "Composite", className: "ContainerSubmitBatchHeaders", modelProperties: { contentType: { serializedName: "content-type", xmlName: "content-type", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } } } } }; const ContainerSubmitBatchExceptionHeaders = { serializedName: "Container_submitBatchExceptionHeaders", type: { name: "Composite", className: "ContainerSubmitBatchExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ContainerFilterBlobsHeaders = { serializedName: "Container_filterBlobsHeaders", type: { name: "Composite", className: "ContainerFilterBlobsHeaders", modelProperties: { clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } } } } }; const ContainerFilterBlobsExceptionHeaders = { serializedName: "Container_filterBlobsExceptionHeaders", type: { name: "Composite", className: "ContainerFilterBlobsExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ContainerAcquireLeaseHeaders = { serializedName: "Container_acquireLeaseHeaders", type: { name: "Composite", className: "ContainerAcquireLeaseHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, leaseId: { serializedName: "x-ms-lease-id", xmlName: "x-ms-lease-id", type: { name: "String" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } } } } }; const ContainerAcquireLeaseExceptionHeaders = { serializedName: "Container_acquireLeaseExceptionHeaders", type: { name: "Composite", className: "ContainerAcquireLeaseExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ContainerReleaseLeaseHeaders = { serializedName: "Container_releaseLeaseHeaders", type: { name: "Composite", className: "ContainerReleaseLeaseHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } } } } }; const ContainerReleaseLeaseExceptionHeaders = { serializedName: "Container_releaseLeaseExceptionHeaders", type: { name: "Composite", className: "ContainerReleaseLeaseExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ContainerRenewLeaseHeaders = { serializedName: "Container_renewLeaseHeaders", type: { name: "Composite", className: "ContainerRenewLeaseHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, leaseId: { serializedName: "x-ms-lease-id", xmlName: "x-ms-lease-id", type: { name: "String" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } } } } }; const ContainerRenewLeaseExceptionHeaders = { serializedName: "Container_renewLeaseExceptionHeaders", type: { name: "Composite", className: "ContainerRenewLeaseExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ContainerBreakLeaseHeaders = { serializedName: "Container_breakLeaseHeaders", type: { name: "Composite", className: "ContainerBreakLeaseHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, leaseTime: { serializedName: "x-ms-lease-time", xmlName: "x-ms-lease-time", type: { name: "Number" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } } } } }; const ContainerBreakLeaseExceptionHeaders = { serializedName: "Container_breakLeaseExceptionHeaders", type: { name: "Composite", className: "ContainerBreakLeaseExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ContainerChangeLeaseHeaders = { serializedName: "Container_changeLeaseHeaders", type: { name: "Composite", className: "ContainerChangeLeaseHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, leaseId: { serializedName: "x-ms-lease-id", xmlName: "x-ms-lease-id", type: { name: "String" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } } } } }; const ContainerChangeLeaseExceptionHeaders = { serializedName: "Container_changeLeaseExceptionHeaders", type: { name: "Composite", className: "ContainerChangeLeaseExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ContainerListBlobFlatSegmentHeaders = { serializedName: "Container_listBlobFlatSegmentHeaders", type: { name: "Composite", className: "ContainerListBlobFlatSegmentHeaders", modelProperties: { contentType: { serializedName: "content-type", xmlName: "content-type", type: { name: "String" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ContainerListBlobFlatSegmentExceptionHeaders = { serializedName: "Container_listBlobFlatSegmentExceptionHeaders", type: { name: "Composite", className: "ContainerListBlobFlatSegmentExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ContainerListBlobHierarchySegmentHeaders = { serializedName: "Container_listBlobHierarchySegmentHeaders", type: { name: "Composite", className: "ContainerListBlobHierarchySegmentHeaders", modelProperties: { contentType: { serializedName: "content-type", xmlName: "content-type", type: { name: "String" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ContainerListBlobHierarchySegmentExceptionHeaders = { serializedName: "Container_listBlobHierarchySegmentExceptionHeaders", type: { name: "Composite", className: "ContainerListBlobHierarchySegmentExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const ContainerGetAccountInfoHeaders = { serializedName: "Container_getAccountInfoHeaders", type: { name: "Composite", className: "ContainerGetAccountInfoHeaders", modelProperties: { clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, skuName: { serializedName: "x-ms-sku-name", xmlName: "x-ms-sku-name", type: { name: "Enum", allowedValues: [ "Standard_LRS", "Standard_GRS", "Standard_RAGRS", "Standard_ZRS", "Premium_LRS" ] } }, accountKind: { serializedName: "x-ms-account-kind", xmlName: "x-ms-account-kind", type: { name: "Enum", allowedValues: [ "Storage", "BlobStorage", "StorageV2", "FileStorage", "BlockBlobStorage" ] } } } } }; const ContainerGetAccountInfoExceptionHeaders = { serializedName: "Container_getAccountInfoExceptionHeaders", type: { name: "Composite", className: "ContainerGetAccountInfoExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobDownloadHeaders = { serializedName: "Blob_downloadHeaders", type: { name: "Composite", className: "BlobDownloadHeaders", modelProperties: { lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, createdOn: { serializedName: "x-ms-creation-time", xmlName: "x-ms-creation-time", type: { name: "DateTimeRfc1123" } }, metadata: { serializedName: "x-ms-meta", xmlName: "x-ms-meta", type: { name: "Dictionary", value: { type: { name: "String" } } }, headerCollectionPrefix: "x-ms-meta-" }, objectReplicationPolicyId: { serializedName: "x-ms-or-policy-id", xmlName: "x-ms-or-policy-id", type: { name: "String" } }, objectReplicationRules: { serializedName: "x-ms-or", xmlName: "x-ms-or", type: { name: "Dictionary", value: { type: { name: "String" } } }, headerCollectionPrefix: "x-ms-or-" }, contentLength: { serializedName: "content-length", xmlName: "content-length", type: { name: "Number" } }, contentType: { serializedName: "content-type", xmlName: "content-type", type: { name: "String" } }, contentRange: { serializedName: "content-range", xmlName: "content-range", type: { name: "String" } }, etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, contentMD5: { serializedName: "content-md5", xmlName: "content-md5", type: { name: "ByteArray" } }, contentEncoding: { serializedName: "content-encoding", xmlName: "content-encoding", type: { name: "String" } }, cacheControl: { serializedName: "cache-control", xmlName: "cache-control", type: { name: "String" } }, contentDisposition: { serializedName: "content-disposition", xmlName: "content-disposition", type: { name: "String" } }, contentLanguage: { serializedName: "content-language", xmlName: "content-language", type: { name: "String" } }, blobSequenceNumber: { serializedName: "x-ms-blob-sequence-number", xmlName: "x-ms-blob-sequence-number", type: { name: "Number" } }, blobType: { serializedName: "x-ms-blob-type", xmlName: "x-ms-blob-type", type: { name: "Enum", allowedValues: ["BlockBlob", "PageBlob", "AppendBlob"] } }, copyCompletedOn: { serializedName: "x-ms-copy-completion-time", xmlName: "x-ms-copy-completion-time", type: { name: "DateTimeRfc1123" } }, copyStatusDescription: { serializedName: "x-ms-copy-status-description", xmlName: "x-ms-copy-status-description", type: { name: "String" } }, copyId: { serializedName: "x-ms-copy-id", xmlName: "x-ms-copy-id", type: { name: "String" } }, copyProgress: { serializedName: "x-ms-copy-progress", xmlName: "x-ms-copy-progress", type: { name: "String" } }, copySource: { serializedName: "x-ms-copy-source", xmlName: "x-ms-copy-source", type: { name: "String" } }, copyStatus: { serializedName: "x-ms-copy-status", xmlName: "x-ms-copy-status", type: { name: "Enum", allowedValues: ["pending", "success", "aborted", "failed"] } }, leaseDuration: { serializedName: "x-ms-lease-duration", xmlName: "x-ms-lease-duration", type: { name: "Enum", allowedValues: ["infinite", "fixed"] } }, leaseState: { serializedName: "x-ms-lease-state", xmlName: "x-ms-lease-state", type: { name: "Enum", allowedValues: [ "available", "leased", "expired", "breaking", "broken" ] } }, leaseStatus: { serializedName: "x-ms-lease-status", xmlName: "x-ms-lease-status", type: { name: "Enum", allowedValues: ["locked", "unlocked"] } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, versionId: { serializedName: "x-ms-version-id", xmlName: "x-ms-version-id", type: { name: "String" } }, isCurrentVersion: { serializedName: "x-ms-is-current-version", xmlName: "x-ms-is-current-version", type: { name: "Boolean" } }, acceptRanges: { serializedName: "accept-ranges", xmlName: "accept-ranges", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, blobCommittedBlockCount: { serializedName: "x-ms-blob-committed-block-count", xmlName: "x-ms-blob-committed-block-count", type: { name: "Number" } }, isServerEncrypted: { serializedName: "x-ms-server-encrypted", xmlName: "x-ms-server-encrypted", type: { name: "Boolean" } }, encryptionKeySha256: { serializedName: "x-ms-encryption-key-sha256", xmlName: "x-ms-encryption-key-sha256", type: { name: "String" } }, encryptionScope: { serializedName: "x-ms-encryption-scope", xmlName: "x-ms-encryption-scope", type: { name: "String" } }, blobContentMD5: { serializedName: "x-ms-blob-content-md5", xmlName: "x-ms-blob-content-md5", type: { name: "ByteArray" } }, tagCount: { serializedName: "x-ms-tag-count", xmlName: "x-ms-tag-count", type: { name: "Number" } }, isSealed: { serializedName: "x-ms-blob-sealed", xmlName: "x-ms-blob-sealed", type: { name: "Boolean" } }, lastAccessed: { serializedName: "x-ms-last-access-time", xmlName: "x-ms-last-access-time", type: { name: "DateTimeRfc1123" } }, immutabilityPolicyExpiresOn: { serializedName: "x-ms-immutability-policy-until-date", xmlName: "x-ms-immutability-policy-until-date", type: { name: "DateTimeRfc1123" } }, immutabilityPolicyMode: { serializedName: "x-ms-immutability-policy-mode", xmlName: "x-ms-immutability-policy-mode", type: { name: "Enum", allowedValues: ["Mutable", "Unlocked", "Locked"] } }, legalHold: { serializedName: "x-ms-legal-hold", xmlName: "x-ms-legal-hold", type: { name: "Boolean" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } }, contentCrc64: { serializedName: "x-ms-content-crc64", xmlName: "x-ms-content-crc64", type: { name: "ByteArray" } } } } }; const BlobDownloadExceptionHeaders = { serializedName: "Blob_downloadExceptionHeaders", type: { name: "Composite", className: "BlobDownloadExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobGetPropertiesHeaders = { serializedName: "Blob_getPropertiesHeaders", type: { name: "Composite", className: "BlobGetPropertiesHeaders", modelProperties: { lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, createdOn: { serializedName: "x-ms-creation-time", xmlName: "x-ms-creation-time", type: { name: "DateTimeRfc1123" } }, metadata: { serializedName: "x-ms-meta", xmlName: "x-ms-meta", type: { name: "Dictionary", value: { type: { name: "String" } } }, headerCollectionPrefix: "x-ms-meta-" }, objectReplicationPolicyId: { serializedName: "x-ms-or-policy-id", xmlName: "x-ms-or-policy-id", type: { name: "String" } }, objectReplicationRules: { serializedName: "x-ms-or", xmlName: "x-ms-or", type: { name: "Dictionary", value: { type: { name: "String" } } }, headerCollectionPrefix: "x-ms-or-" }, blobType: { serializedName: "x-ms-blob-type", xmlName: "x-ms-blob-type", type: { name: "Enum", allowedValues: ["BlockBlob", "PageBlob", "AppendBlob"] } }, copyCompletedOn: { serializedName: "x-ms-copy-completion-time", xmlName: "x-ms-copy-completion-time", type: { name: "DateTimeRfc1123" } }, copyStatusDescription: { serializedName: "x-ms-copy-status-description", xmlName: "x-ms-copy-status-description", type: { name: "String" } }, copyId: { serializedName: "x-ms-copy-id", xmlName: "x-ms-copy-id", type: { name: "String" } }, copyProgress: { serializedName: "x-ms-copy-progress", xmlName: "x-ms-copy-progress", type: { name: "String" } }, copySource: { serializedName: "x-ms-copy-source", xmlName: "x-ms-copy-source", type: { name: "String" } }, copyStatus: { serializedName: "x-ms-copy-status", xmlName: "x-ms-copy-status", type: { name: "Enum", allowedValues: ["pending", "success", "aborted", "failed"] } }, isIncrementalCopy: { serializedName: "x-ms-incremental-copy", xmlName: "x-ms-incremental-copy", type: { name: "Boolean" } }, destinationSnapshot: { serializedName: "x-ms-copy-destination-snapshot", xmlName: "x-ms-copy-destination-snapshot", type: { name: "String" } }, leaseDuration: { serializedName: "x-ms-lease-duration", xmlName: "x-ms-lease-duration", type: { name: "Enum", allowedValues: ["infinite", "fixed"] } }, leaseState: { serializedName: "x-ms-lease-state", xmlName: "x-ms-lease-state", type: { name: "Enum", allowedValues: [ "available", "leased", "expired", "breaking", "broken" ] } }, leaseStatus: { serializedName: "x-ms-lease-status", xmlName: "x-ms-lease-status", type: { name: "Enum", allowedValues: ["locked", "unlocked"] } }, contentLength: { serializedName: "content-length", xmlName: "content-length", type: { name: "Number" } }, contentType: { serializedName: "content-type", xmlName: "content-type", type: { name: "String" } }, etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, contentMD5: { serializedName: "content-md5", xmlName: "content-md5", type: { name: "ByteArray" } }, contentEncoding: { serializedName: "content-encoding", xmlName: "content-encoding", type: { name: "String" } }, contentDisposition: { serializedName: "content-disposition", xmlName: "content-disposition", type: { name: "String" } }, contentLanguage: { serializedName: "content-language", xmlName: "content-language", type: { name: "String" } }, cacheControl: { serializedName: "cache-control", xmlName: "cache-control", type: { name: "String" } }, blobSequenceNumber: { serializedName: "x-ms-blob-sequence-number", xmlName: "x-ms-blob-sequence-number", type: { name: "Number" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, acceptRanges: { serializedName: "accept-ranges", xmlName: "accept-ranges", type: { name: "String" } }, blobCommittedBlockCount: { serializedName: "x-ms-blob-committed-block-count", xmlName: "x-ms-blob-committed-block-count", type: { name: "Number" } }, isServerEncrypted: { serializedName: "x-ms-server-encrypted", xmlName: "x-ms-server-encrypted", type: { name: "Boolean" } }, encryptionKeySha256: { serializedName: "x-ms-encryption-key-sha256", xmlName: "x-ms-encryption-key-sha256", type: { name: "String" } }, encryptionScope: { serializedName: "x-ms-encryption-scope", xmlName: "x-ms-encryption-scope", type: { name: "String" } }, accessTier: { serializedName: "x-ms-access-tier", xmlName: "x-ms-access-tier", type: { name: "String" } }, accessTierInferred: { serializedName: "x-ms-access-tier-inferred", xmlName: "x-ms-access-tier-inferred", type: { name: "Boolean" } }, archiveStatus: { serializedName: "x-ms-archive-status", xmlName: "x-ms-archive-status", type: { name: "String" } }, accessTierChangedOn: { serializedName: "x-ms-access-tier-change-time", xmlName: "x-ms-access-tier-change-time", type: { name: "DateTimeRfc1123" } }, versionId: { serializedName: "x-ms-version-id", xmlName: "x-ms-version-id", type: { name: "String" } }, isCurrentVersion: { serializedName: "x-ms-is-current-version", xmlName: "x-ms-is-current-version", type: { name: "Boolean" } }, tagCount: { serializedName: "x-ms-tag-count", xmlName: "x-ms-tag-count", type: { name: "Number" } }, expiresOn: { serializedName: "x-ms-expiry-time", xmlName: "x-ms-expiry-time", type: { name: "DateTimeRfc1123" } }, isSealed: { serializedName: "x-ms-blob-sealed", xmlName: "x-ms-blob-sealed", type: { name: "Boolean" } }, rehydratePriority: { serializedName: "x-ms-rehydrate-priority", xmlName: "x-ms-rehydrate-priority", type: { name: "Enum", allowedValues: ["High", "Standard"] } }, lastAccessed: { serializedName: "x-ms-last-access-time", xmlName: "x-ms-last-access-time", type: { name: "DateTimeRfc1123" } }, immutabilityPolicyExpiresOn: { serializedName: "x-ms-immutability-policy-until-date", xmlName: "x-ms-immutability-policy-until-date", type: { name: "DateTimeRfc1123" } }, immutabilityPolicyMode: { serializedName: "x-ms-immutability-policy-mode", xmlName: "x-ms-immutability-policy-mode", type: { name: "Enum", allowedValues: ["Mutable", "Unlocked", "Locked"] } }, legalHold: { serializedName: "x-ms-legal-hold", xmlName: "x-ms-legal-hold", type: { name: "Boolean" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobGetPropertiesExceptionHeaders = { serializedName: "Blob_getPropertiesExceptionHeaders", type: { name: "Composite", className: "BlobGetPropertiesExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobDeleteHeaders = { serializedName: "Blob_deleteHeaders", type: { name: "Composite", className: "BlobDeleteHeaders", modelProperties: { clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobDeleteExceptionHeaders = { serializedName: "Blob_deleteExceptionHeaders", type: { name: "Composite", className: "BlobDeleteExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobUndeleteHeaders = { serializedName: "Blob_undeleteHeaders", type: { name: "Composite", className: "BlobUndeleteHeaders", modelProperties: { clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobUndeleteExceptionHeaders = { serializedName: "Blob_undeleteExceptionHeaders", type: { name: "Composite", className: "BlobUndeleteExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobSetExpiryHeaders = { serializedName: "Blob_setExpiryHeaders", type: { name: "Composite", className: "BlobSetExpiryHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } } } } }; const BlobSetExpiryExceptionHeaders = { serializedName: "Blob_setExpiryExceptionHeaders", type: { name: "Composite", className: "BlobSetExpiryExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobSetHttpHeadersHeaders = { serializedName: "Blob_setHttpHeadersHeaders", type: { name: "Composite", className: "BlobSetHttpHeadersHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, blobSequenceNumber: { serializedName: "x-ms-blob-sequence-number", xmlName: "x-ms-blob-sequence-number", type: { name: "Number" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobSetHttpHeadersExceptionHeaders = { serializedName: "Blob_setHttpHeadersExceptionHeaders", type: { name: "Composite", className: "BlobSetHttpHeadersExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobSetImmutabilityPolicyHeaders = { serializedName: "Blob_setImmutabilityPolicyHeaders", type: { name: "Composite", className: "BlobSetImmutabilityPolicyHeaders", modelProperties: { clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, immutabilityPolicyExpiry: { serializedName: "x-ms-immutability-policy-until-date", xmlName: "x-ms-immutability-policy-until-date", type: { name: "DateTimeRfc1123" } }, immutabilityPolicyMode: { serializedName: "x-ms-immutability-policy-mode", xmlName: "x-ms-immutability-policy-mode", type: { name: "Enum", allowedValues: ["Mutable", "Unlocked", "Locked"] } } } } }; const BlobSetImmutabilityPolicyExceptionHeaders = { serializedName: "Blob_setImmutabilityPolicyExceptionHeaders", type: { name: "Composite", className: "BlobSetImmutabilityPolicyExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobDeleteImmutabilityPolicyHeaders = { serializedName: "Blob_deleteImmutabilityPolicyHeaders", type: { name: "Composite", className: "BlobDeleteImmutabilityPolicyHeaders", modelProperties: { clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } } } } }; const BlobDeleteImmutabilityPolicyExceptionHeaders = { serializedName: "Blob_deleteImmutabilityPolicyExceptionHeaders", type: { name: "Composite", className: "BlobDeleteImmutabilityPolicyExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobSetLegalHoldHeaders = { serializedName: "Blob_setLegalHoldHeaders", type: { name: "Composite", className: "BlobSetLegalHoldHeaders", modelProperties: { clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, legalHold: { serializedName: "x-ms-legal-hold", xmlName: "x-ms-legal-hold", type: { name: "Boolean" } } } } }; const BlobSetLegalHoldExceptionHeaders = { serializedName: "Blob_setLegalHoldExceptionHeaders", type: { name: "Composite", className: "BlobSetLegalHoldExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobSetMetadataHeaders = { serializedName: "Blob_setMetadataHeaders", type: { name: "Composite", className: "BlobSetMetadataHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, versionId: { serializedName: "x-ms-version-id", xmlName: "x-ms-version-id", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, isServerEncrypted: { serializedName: "x-ms-request-server-encrypted", xmlName: "x-ms-request-server-encrypted", type: { name: "Boolean" } }, encryptionKeySha256: { serializedName: "x-ms-encryption-key-sha256", xmlName: "x-ms-encryption-key-sha256", type: { name: "String" } }, encryptionScope: { serializedName: "x-ms-encryption-scope", xmlName: "x-ms-encryption-scope", type: { name: "String" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobSetMetadataExceptionHeaders = { serializedName: "Blob_setMetadataExceptionHeaders", type: { name: "Composite", className: "BlobSetMetadataExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobAcquireLeaseHeaders = { serializedName: "Blob_acquireLeaseHeaders", type: { name: "Composite", className: "BlobAcquireLeaseHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, leaseId: { serializedName: "x-ms-lease-id", xmlName: "x-ms-lease-id", type: { name: "String" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } } } } }; const BlobAcquireLeaseExceptionHeaders = { serializedName: "Blob_acquireLeaseExceptionHeaders", type: { name: "Composite", className: "BlobAcquireLeaseExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobReleaseLeaseHeaders = { serializedName: "Blob_releaseLeaseHeaders", type: { name: "Composite", className: "BlobReleaseLeaseHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } } } } }; const BlobReleaseLeaseExceptionHeaders = { serializedName: "Blob_releaseLeaseExceptionHeaders", type: { name: "Composite", className: "BlobReleaseLeaseExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobRenewLeaseHeaders = { serializedName: "Blob_renewLeaseHeaders", type: { name: "Composite", className: "BlobRenewLeaseHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, leaseId: { serializedName: "x-ms-lease-id", xmlName: "x-ms-lease-id", type: { name: "String" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } } } } }; const BlobRenewLeaseExceptionHeaders = { serializedName: "Blob_renewLeaseExceptionHeaders", type: { name: "Composite", className: "BlobRenewLeaseExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobChangeLeaseHeaders = { serializedName: "Blob_changeLeaseHeaders", type: { name: "Composite", className: "BlobChangeLeaseHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, leaseId: { serializedName: "x-ms-lease-id", xmlName: "x-ms-lease-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } } } } }; const BlobChangeLeaseExceptionHeaders = { serializedName: "Blob_changeLeaseExceptionHeaders", type: { name: "Composite", className: "BlobChangeLeaseExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobBreakLeaseHeaders = { serializedName: "Blob_breakLeaseHeaders", type: { name: "Composite", className: "BlobBreakLeaseHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, leaseTime: { serializedName: "x-ms-lease-time", xmlName: "x-ms-lease-time", type: { name: "Number" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } } } } }; const BlobBreakLeaseExceptionHeaders = { serializedName: "Blob_breakLeaseExceptionHeaders", type: { name: "Composite", className: "BlobBreakLeaseExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobCreateSnapshotHeaders = { serializedName: "Blob_createSnapshotHeaders", type: { name: "Composite", className: "BlobCreateSnapshotHeaders", modelProperties: { snapshot: { serializedName: "x-ms-snapshot", xmlName: "x-ms-snapshot", type: { name: "String" } }, etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, versionId: { serializedName: "x-ms-version-id", xmlName: "x-ms-version-id", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, isServerEncrypted: { serializedName: "x-ms-request-server-encrypted", xmlName: "x-ms-request-server-encrypted", type: { name: "Boolean" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobCreateSnapshotExceptionHeaders = { serializedName: "Blob_createSnapshotExceptionHeaders", type: { name: "Composite", className: "BlobCreateSnapshotExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobStartCopyFromURLHeaders = { serializedName: "Blob_startCopyFromURLHeaders", type: { name: "Composite", className: "BlobStartCopyFromURLHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, versionId: { serializedName: "x-ms-version-id", xmlName: "x-ms-version-id", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, copyId: { serializedName: "x-ms-copy-id", xmlName: "x-ms-copy-id", type: { name: "String" } }, copyStatus: { serializedName: "x-ms-copy-status", xmlName: "x-ms-copy-status", type: { name: "Enum", allowedValues: ["pending", "success", "aborted", "failed"] } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobStartCopyFromURLExceptionHeaders = { serializedName: "Blob_startCopyFromURLExceptionHeaders", type: { name: "Composite", className: "BlobStartCopyFromURLExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobCopyFromURLHeaders = { serializedName: "Blob_copyFromURLHeaders", type: { name: "Composite", className: "BlobCopyFromURLHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, versionId: { serializedName: "x-ms-version-id", xmlName: "x-ms-version-id", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, copyId: { serializedName: "x-ms-copy-id", xmlName: "x-ms-copy-id", type: { name: "String" } }, copyStatus: { defaultValue: "success", isConstant: true, serializedName: "x-ms-copy-status", type: { name: "String" } }, contentMD5: { serializedName: "content-md5", xmlName: "content-md5", type: { name: "ByteArray" } }, xMsContentCrc64: { serializedName: "x-ms-content-crc64", xmlName: "x-ms-content-crc64", type: { name: "ByteArray" } }, encryptionScope: { serializedName: "x-ms-encryption-scope", xmlName: "x-ms-encryption-scope", type: { name: "String" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobCopyFromURLExceptionHeaders = { serializedName: "Blob_copyFromURLExceptionHeaders", type: { name: "Composite", className: "BlobCopyFromURLExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobAbortCopyFromURLHeaders = { serializedName: "Blob_abortCopyFromURLHeaders", type: { name: "Composite", className: "BlobAbortCopyFromURLHeaders", modelProperties: { clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobAbortCopyFromURLExceptionHeaders = { serializedName: "Blob_abortCopyFromURLExceptionHeaders", type: { name: "Composite", className: "BlobAbortCopyFromURLExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobSetTierHeaders = { serializedName: "Blob_setTierHeaders", type: { name: "Composite", className: "BlobSetTierHeaders", modelProperties: { clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobSetTierExceptionHeaders = { serializedName: "Blob_setTierExceptionHeaders", type: { name: "Composite", className: "BlobSetTierExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobGetAccountInfoHeaders = { serializedName: "Blob_getAccountInfoHeaders", type: { name: "Composite", className: "BlobGetAccountInfoHeaders", modelProperties: { clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, skuName: { serializedName: "x-ms-sku-name", xmlName: "x-ms-sku-name", type: { name: "Enum", allowedValues: [ "Standard_LRS", "Standard_GRS", "Standard_RAGRS", "Standard_ZRS", "Premium_LRS" ] } }, accountKind: { serializedName: "x-ms-account-kind", xmlName: "x-ms-account-kind", type: { name: "Enum", allowedValues: [ "Storage", "BlobStorage", "StorageV2", "FileStorage", "BlockBlobStorage" ] } } } } }; const BlobGetAccountInfoExceptionHeaders = { serializedName: "Blob_getAccountInfoExceptionHeaders", type: { name: "Composite", className: "BlobGetAccountInfoExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobQueryHeaders = { serializedName: "Blob_queryHeaders", type: { name: "Composite", className: "BlobQueryHeaders", modelProperties: { lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, metadata: { serializedName: "x-ms-meta", xmlName: "x-ms-meta", type: { name: "Dictionary", value: { type: { name: "String" } } } }, contentLength: { serializedName: "content-length", xmlName: "content-length", type: { name: "Number" } }, contentType: { serializedName: "content-type", xmlName: "content-type", type: { name: "String" } }, contentRange: { serializedName: "content-range", xmlName: "content-range", type: { name: "String" } }, etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, contentMD5: { serializedName: "content-md5", xmlName: "content-md5", type: { name: "ByteArray" } }, contentEncoding: { serializedName: "content-encoding", xmlName: "content-encoding", type: { name: "String" } }, cacheControl: { serializedName: "cache-control", xmlName: "cache-control", type: { name: "String" } }, contentDisposition: { serializedName: "content-disposition", xmlName: "content-disposition", type: { name: "String" } }, contentLanguage: { serializedName: "content-language", xmlName: "content-language", type: { name: "String" } }, blobSequenceNumber: { serializedName: "x-ms-blob-sequence-number", xmlName: "x-ms-blob-sequence-number", type: { name: "Number" } }, blobType: { serializedName: "x-ms-blob-type", xmlName: "x-ms-blob-type", type: { name: "Enum", allowedValues: ["BlockBlob", "PageBlob", "AppendBlob"] } }, copyCompletionTime: { serializedName: "x-ms-copy-completion-time", xmlName: "x-ms-copy-completion-time", type: { name: "DateTimeRfc1123" } }, copyStatusDescription: { serializedName: "x-ms-copy-status-description", xmlName: "x-ms-copy-status-description", type: { name: "String" } }, copyId: { serializedName: "x-ms-copy-id", xmlName: "x-ms-copy-id", type: { name: "String" } }, copyProgress: { serializedName: "x-ms-copy-progress", xmlName: "x-ms-copy-progress", type: { name: "String" } }, copySource: { serializedName: "x-ms-copy-source", xmlName: "x-ms-copy-source", type: { name: "String" } }, copyStatus: { serializedName: "x-ms-copy-status", xmlName: "x-ms-copy-status", type: { name: "Enum", allowedValues: ["pending", "success", "aborted", "failed"] } }, leaseDuration: { serializedName: "x-ms-lease-duration", xmlName: "x-ms-lease-duration", type: { name: "Enum", allowedValues: ["infinite", "fixed"] } }, leaseState: { serializedName: "x-ms-lease-state", xmlName: "x-ms-lease-state", type: { name: "Enum", allowedValues: [ "available", "leased", "expired", "breaking", "broken" ] } }, leaseStatus: { serializedName: "x-ms-lease-status", xmlName: "x-ms-lease-status", type: { name: "Enum", allowedValues: ["locked", "unlocked"] } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, acceptRanges: { serializedName: "accept-ranges", xmlName: "accept-ranges", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, blobCommittedBlockCount: { serializedName: "x-ms-blob-committed-block-count", xmlName: "x-ms-blob-committed-block-count", type: { name: "Number" } }, isServerEncrypted: { serializedName: "x-ms-server-encrypted", xmlName: "x-ms-server-encrypted", type: { name: "Boolean" } }, encryptionKeySha256: { serializedName: "x-ms-encryption-key-sha256", xmlName: "x-ms-encryption-key-sha256", type: { name: "String" } }, encryptionScope: { serializedName: "x-ms-encryption-scope", xmlName: "x-ms-encryption-scope", type: { name: "String" } }, blobContentMD5: { serializedName: "x-ms-blob-content-md5", xmlName: "x-ms-blob-content-md5", type: { name: "ByteArray" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } }, contentCrc64: { serializedName: "x-ms-content-crc64", xmlName: "x-ms-content-crc64", type: { name: "ByteArray" } } } } }; const BlobQueryExceptionHeaders = { serializedName: "Blob_queryExceptionHeaders", type: { name: "Composite", className: "BlobQueryExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobGetTagsHeaders = { serializedName: "Blob_getTagsHeaders", type: { name: "Composite", className: "BlobGetTagsHeaders", modelProperties: { clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobGetTagsExceptionHeaders = { serializedName: "Blob_getTagsExceptionHeaders", type: { name: "Composite", className: "BlobGetTagsExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobSetTagsHeaders = { serializedName: "Blob_setTagsHeaders", type: { name: "Composite", className: "BlobSetTagsHeaders", modelProperties: { clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlobSetTagsExceptionHeaders = { serializedName: "Blob_setTagsExceptionHeaders", type: { name: "Composite", className: "BlobSetTagsExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const PageBlobCreateHeaders = { serializedName: "PageBlob_createHeaders", type: { name: "Composite", className: "PageBlobCreateHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, contentMD5: { serializedName: "content-md5", xmlName: "content-md5", type: { name: "ByteArray" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, versionId: { serializedName: "x-ms-version-id", xmlName: "x-ms-version-id", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, isServerEncrypted: { serializedName: "x-ms-request-server-encrypted", xmlName: "x-ms-request-server-encrypted", type: { name: "Boolean" } }, encryptionKeySha256: { serializedName: "x-ms-encryption-key-sha256", xmlName: "x-ms-encryption-key-sha256", type: { name: "String" } }, encryptionScope: { serializedName: "x-ms-encryption-scope", xmlName: "x-ms-encryption-scope", type: { name: "String" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const PageBlobCreateExceptionHeaders = { serializedName: "PageBlob_createExceptionHeaders", type: { name: "Composite", className: "PageBlobCreateExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const PageBlobUploadPagesHeaders = { serializedName: "PageBlob_uploadPagesHeaders", type: { name: "Composite", className: "PageBlobUploadPagesHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, contentMD5: { serializedName: "content-md5", xmlName: "content-md5", type: { name: "ByteArray" } }, xMsContentCrc64: { serializedName: "x-ms-content-crc64", xmlName: "x-ms-content-crc64", type: { name: "ByteArray" } }, blobSequenceNumber: { serializedName: "x-ms-blob-sequence-number", xmlName: "x-ms-blob-sequence-number", type: { name: "Number" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, isServerEncrypted: { serializedName: "x-ms-request-server-encrypted", xmlName: "x-ms-request-server-encrypted", type: { name: "Boolean" } }, encryptionKeySha256: { serializedName: "x-ms-encryption-key-sha256", xmlName: "x-ms-encryption-key-sha256", type: { name: "String" } }, encryptionScope: { serializedName: "x-ms-encryption-scope", xmlName: "x-ms-encryption-scope", type: { name: "String" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const PageBlobUploadPagesExceptionHeaders = { serializedName: "PageBlob_uploadPagesExceptionHeaders", type: { name: "Composite", className: "PageBlobUploadPagesExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const PageBlobClearPagesHeaders = { serializedName: "PageBlob_clearPagesHeaders", type: { name: "Composite", className: "PageBlobClearPagesHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, contentMD5: { serializedName: "content-md5", xmlName: "content-md5", type: { name: "ByteArray" } }, xMsContentCrc64: { serializedName: "x-ms-content-crc64", xmlName: "x-ms-content-crc64", type: { name: "ByteArray" } }, blobSequenceNumber: { serializedName: "x-ms-blob-sequence-number", xmlName: "x-ms-blob-sequence-number", type: { name: "Number" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const PageBlobClearPagesExceptionHeaders = { serializedName: "PageBlob_clearPagesExceptionHeaders", type: { name: "Composite", className: "PageBlobClearPagesExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const PageBlobUploadPagesFromURLHeaders = { serializedName: "PageBlob_uploadPagesFromURLHeaders", type: { name: "Composite", className: "PageBlobUploadPagesFromURLHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, contentMD5: { serializedName: "content-md5", xmlName: "content-md5", type: { name: "ByteArray" } }, xMsContentCrc64: { serializedName: "x-ms-content-crc64", xmlName: "x-ms-content-crc64", type: { name: "ByteArray" } }, blobSequenceNumber: { serializedName: "x-ms-blob-sequence-number", xmlName: "x-ms-blob-sequence-number", type: { name: "Number" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, isServerEncrypted: { serializedName: "x-ms-request-server-encrypted", xmlName: "x-ms-request-server-encrypted", type: { name: "Boolean" } }, encryptionKeySha256: { serializedName: "x-ms-encryption-key-sha256", xmlName: "x-ms-encryption-key-sha256", type: { name: "String" } }, encryptionScope: { serializedName: "x-ms-encryption-scope", xmlName: "x-ms-encryption-scope", type: { name: "String" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const PageBlobUploadPagesFromURLExceptionHeaders = { serializedName: "PageBlob_uploadPagesFromURLExceptionHeaders", type: { name: "Composite", className: "PageBlobUploadPagesFromURLExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const PageBlobGetPageRangesHeaders = { serializedName: "PageBlob_getPageRangesHeaders", type: { name: "Composite", className: "PageBlobGetPageRangesHeaders", modelProperties: { lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, blobContentLength: { serializedName: "x-ms-blob-content-length", xmlName: "x-ms-blob-content-length", type: { name: "Number" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const PageBlobGetPageRangesExceptionHeaders = { serializedName: "PageBlob_getPageRangesExceptionHeaders", type: { name: "Composite", className: "PageBlobGetPageRangesExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const PageBlobGetPageRangesDiffHeaders = { serializedName: "PageBlob_getPageRangesDiffHeaders", type: { name: "Composite", className: "PageBlobGetPageRangesDiffHeaders", modelProperties: { lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, blobContentLength: { serializedName: "x-ms-blob-content-length", xmlName: "x-ms-blob-content-length", type: { name: "Number" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const PageBlobGetPageRangesDiffExceptionHeaders = { serializedName: "PageBlob_getPageRangesDiffExceptionHeaders", type: { name: "Composite", className: "PageBlobGetPageRangesDiffExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const PageBlobResizeHeaders = { serializedName: "PageBlob_resizeHeaders", type: { name: "Composite", className: "PageBlobResizeHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, blobSequenceNumber: { serializedName: "x-ms-blob-sequence-number", xmlName: "x-ms-blob-sequence-number", type: { name: "Number" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const PageBlobResizeExceptionHeaders = { serializedName: "PageBlob_resizeExceptionHeaders", type: { name: "Composite", className: "PageBlobResizeExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const PageBlobUpdateSequenceNumberHeaders = { serializedName: "PageBlob_updateSequenceNumberHeaders", type: { name: "Composite", className: "PageBlobUpdateSequenceNumberHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, blobSequenceNumber: { serializedName: "x-ms-blob-sequence-number", xmlName: "x-ms-blob-sequence-number", type: { name: "Number" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const PageBlobUpdateSequenceNumberExceptionHeaders = { serializedName: "PageBlob_updateSequenceNumberExceptionHeaders", type: { name: "Composite", className: "PageBlobUpdateSequenceNumberExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const PageBlobCopyIncrementalHeaders = { serializedName: "PageBlob_copyIncrementalHeaders", type: { name: "Composite", className: "PageBlobCopyIncrementalHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, copyId: { serializedName: "x-ms-copy-id", xmlName: "x-ms-copy-id", type: { name: "String" } }, copyStatus: { serializedName: "x-ms-copy-status", xmlName: "x-ms-copy-status", type: { name: "Enum", allowedValues: ["pending", "success", "aborted", "failed"] } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const PageBlobCopyIncrementalExceptionHeaders = { serializedName: "PageBlob_copyIncrementalExceptionHeaders", type: { name: "Composite", className: "PageBlobCopyIncrementalExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const AppendBlobCreateHeaders = { serializedName: "AppendBlob_createHeaders", type: { name: "Composite", className: "AppendBlobCreateHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, contentMD5: { serializedName: "content-md5", xmlName: "content-md5", type: { name: "ByteArray" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, versionId: { serializedName: "x-ms-version-id", xmlName: "x-ms-version-id", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, isServerEncrypted: { serializedName: "x-ms-request-server-encrypted", xmlName: "x-ms-request-server-encrypted", type: { name: "Boolean" } }, encryptionKeySha256: { serializedName: "x-ms-encryption-key-sha256", xmlName: "x-ms-encryption-key-sha256", type: { name: "String" } }, encryptionScope: { serializedName: "x-ms-encryption-scope", xmlName: "x-ms-encryption-scope", type: { name: "String" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const AppendBlobCreateExceptionHeaders = { serializedName: "AppendBlob_createExceptionHeaders", type: { name: "Composite", className: "AppendBlobCreateExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const AppendBlobAppendBlockHeaders = { serializedName: "AppendBlob_appendBlockHeaders", type: { name: "Composite", className: "AppendBlobAppendBlockHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, contentMD5: { serializedName: "content-md5", xmlName: "content-md5", type: { name: "ByteArray" } }, xMsContentCrc64: { serializedName: "x-ms-content-crc64", xmlName: "x-ms-content-crc64", type: { name: "ByteArray" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, blobAppendOffset: { serializedName: "x-ms-blob-append-offset", xmlName: "x-ms-blob-append-offset", type: { name: "String" } }, blobCommittedBlockCount: { serializedName: "x-ms-blob-committed-block-count", xmlName: "x-ms-blob-committed-block-count", type: { name: "Number" } }, isServerEncrypted: { serializedName: "x-ms-request-server-encrypted", xmlName: "x-ms-request-server-encrypted", type: { name: "Boolean" } }, encryptionKeySha256: { serializedName: "x-ms-encryption-key-sha256", xmlName: "x-ms-encryption-key-sha256", type: { name: "String" } }, encryptionScope: { serializedName: "x-ms-encryption-scope", xmlName: "x-ms-encryption-scope", type: { name: "String" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const AppendBlobAppendBlockExceptionHeaders = { serializedName: "AppendBlob_appendBlockExceptionHeaders", type: { name: "Composite", className: "AppendBlobAppendBlockExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const AppendBlobAppendBlockFromUrlHeaders = { serializedName: "AppendBlob_appendBlockFromUrlHeaders", type: { name: "Composite", className: "AppendBlobAppendBlockFromUrlHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, contentMD5: { serializedName: "content-md5", xmlName: "content-md5", type: { name: "ByteArray" } }, xMsContentCrc64: { serializedName: "x-ms-content-crc64", xmlName: "x-ms-content-crc64", type: { name: "ByteArray" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, blobAppendOffset: { serializedName: "x-ms-blob-append-offset", xmlName: "x-ms-blob-append-offset", type: { name: "String" } }, blobCommittedBlockCount: { serializedName: "x-ms-blob-committed-block-count", xmlName: "x-ms-blob-committed-block-count", type: { name: "Number" } }, encryptionKeySha256: { serializedName: "x-ms-encryption-key-sha256", xmlName: "x-ms-encryption-key-sha256", type: { name: "String" } }, encryptionScope: { serializedName: "x-ms-encryption-scope", xmlName: "x-ms-encryption-scope", type: { name: "String" } }, isServerEncrypted: { serializedName: "x-ms-request-server-encrypted", xmlName: "x-ms-request-server-encrypted", type: { name: "Boolean" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const AppendBlobAppendBlockFromUrlExceptionHeaders = { serializedName: "AppendBlob_appendBlockFromUrlExceptionHeaders", type: { name: "Composite", className: "AppendBlobAppendBlockFromUrlExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const AppendBlobSealHeaders = { serializedName: "AppendBlob_sealHeaders", type: { name: "Composite", className: "AppendBlobSealHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, isSealed: { serializedName: "x-ms-blob-sealed", xmlName: "x-ms-blob-sealed", type: { name: "Boolean" } } } } }; const AppendBlobSealExceptionHeaders = { serializedName: "AppendBlob_sealExceptionHeaders", type: { name: "Composite", className: "AppendBlobSealExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlockBlobUploadHeaders = { serializedName: "BlockBlob_uploadHeaders", type: { name: "Composite", className: "BlockBlobUploadHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, contentMD5: { serializedName: "content-md5", xmlName: "content-md5", type: { name: "ByteArray" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, versionId: { serializedName: "x-ms-version-id", xmlName: "x-ms-version-id", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, isServerEncrypted: { serializedName: "x-ms-request-server-encrypted", xmlName: "x-ms-request-server-encrypted", type: { name: "Boolean" } }, encryptionKeySha256: { serializedName: "x-ms-encryption-key-sha256", xmlName: "x-ms-encryption-key-sha256", type: { name: "String" } }, encryptionScope: { serializedName: "x-ms-encryption-scope", xmlName: "x-ms-encryption-scope", type: { name: "String" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlockBlobUploadExceptionHeaders = { serializedName: "BlockBlob_uploadExceptionHeaders", type: { name: "Composite", className: "BlockBlobUploadExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlockBlobPutBlobFromUrlHeaders = { serializedName: "BlockBlob_putBlobFromUrlHeaders", type: { name: "Composite", className: "BlockBlobPutBlobFromUrlHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, contentMD5: { serializedName: "content-md5", xmlName: "content-md5", type: { name: "ByteArray" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, versionId: { serializedName: "x-ms-version-id", xmlName: "x-ms-version-id", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, isServerEncrypted: { serializedName: "x-ms-request-server-encrypted", xmlName: "x-ms-request-server-encrypted", type: { name: "Boolean" } }, encryptionKeySha256: { serializedName: "x-ms-encryption-key-sha256", xmlName: "x-ms-encryption-key-sha256", type: { name: "String" } }, encryptionScope: { serializedName: "x-ms-encryption-scope", xmlName: "x-ms-encryption-scope", type: { name: "String" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlockBlobPutBlobFromUrlExceptionHeaders = { serializedName: "BlockBlob_putBlobFromUrlExceptionHeaders", type: { name: "Composite", className: "BlockBlobPutBlobFromUrlExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlockBlobStageBlockHeaders = { serializedName: "BlockBlob_stageBlockHeaders", type: { name: "Composite", className: "BlockBlobStageBlockHeaders", modelProperties: { contentMD5: { serializedName: "content-md5", xmlName: "content-md5", type: { name: "ByteArray" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, xMsContentCrc64: { serializedName: "x-ms-content-crc64", xmlName: "x-ms-content-crc64", type: { name: "ByteArray" } }, isServerEncrypted: { serializedName: "x-ms-request-server-encrypted", xmlName: "x-ms-request-server-encrypted", type: { name: "Boolean" } }, encryptionKeySha256: { serializedName: "x-ms-encryption-key-sha256", xmlName: "x-ms-encryption-key-sha256", type: { name: "String" } }, encryptionScope: { serializedName: "x-ms-encryption-scope", xmlName: "x-ms-encryption-scope", type: { name: "String" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlockBlobStageBlockExceptionHeaders = { serializedName: "BlockBlob_stageBlockExceptionHeaders", type: { name: "Composite", className: "BlockBlobStageBlockExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlockBlobStageBlockFromURLHeaders = { serializedName: "BlockBlob_stageBlockFromURLHeaders", type: { name: "Composite", className: "BlockBlobStageBlockFromURLHeaders", modelProperties: { contentMD5: { serializedName: "content-md5", xmlName: "content-md5", type: { name: "ByteArray" } }, xMsContentCrc64: { serializedName: "x-ms-content-crc64", xmlName: "x-ms-content-crc64", type: { name: "ByteArray" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, isServerEncrypted: { serializedName: "x-ms-request-server-encrypted", xmlName: "x-ms-request-server-encrypted", type: { name: "Boolean" } }, encryptionKeySha256: { serializedName: "x-ms-encryption-key-sha256", xmlName: "x-ms-encryption-key-sha256", type: { name: "String" } }, encryptionScope: { serializedName: "x-ms-encryption-scope", xmlName: "x-ms-encryption-scope", type: { name: "String" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlockBlobStageBlockFromURLExceptionHeaders = { serializedName: "BlockBlob_stageBlockFromURLExceptionHeaders", type: { name: "Composite", className: "BlockBlobStageBlockFromURLExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlockBlobCommitBlockListHeaders = { serializedName: "BlockBlob_commitBlockListHeaders", type: { name: "Composite", className: "BlockBlobCommitBlockListHeaders", modelProperties: { etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, contentMD5: { serializedName: "content-md5", xmlName: "content-md5", type: { name: "ByteArray" } }, xMsContentCrc64: { serializedName: "x-ms-content-crc64", xmlName: "x-ms-content-crc64", type: { name: "ByteArray" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, versionId: { serializedName: "x-ms-version-id", xmlName: "x-ms-version-id", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, isServerEncrypted: { serializedName: "x-ms-request-server-encrypted", xmlName: "x-ms-request-server-encrypted", type: { name: "Boolean" } }, encryptionKeySha256: { serializedName: "x-ms-encryption-key-sha256", xmlName: "x-ms-encryption-key-sha256", type: { name: "String" } }, encryptionScope: { serializedName: "x-ms-encryption-scope", xmlName: "x-ms-encryption-scope", type: { name: "String" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlockBlobCommitBlockListExceptionHeaders = { serializedName: "BlockBlob_commitBlockListExceptionHeaders", type: { name: "Composite", className: "BlockBlobCommitBlockListExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlockBlobGetBlockListHeaders = { serializedName: "BlockBlob_getBlockListHeaders", type: { name: "Composite", className: "BlockBlobGetBlockListHeaders", modelProperties: { lastModified: { serializedName: "last-modified", xmlName: "last-modified", type: { name: "DateTimeRfc1123" } }, etag: { serializedName: "etag", xmlName: "etag", type: { name: "String" } }, contentType: { serializedName: "content-type", xmlName: "content-type", type: { name: "String" } }, blobContentLength: { serializedName: "x-ms-blob-content-length", xmlName: "x-ms-blob-content-length", type: { name: "Number" } }, clientRequestId: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } }, requestId: { serializedName: "x-ms-request-id", xmlName: "x-ms-request-id", type: { name: "String" } }, version: { serializedName: "x-ms-version", xmlName: "x-ms-version", type: { name: "String" } }, date: { serializedName: "date", xmlName: "date", type: { name: "DateTimeRfc1123" } }, errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; const BlockBlobGetBlockListExceptionHeaders = { serializedName: "BlockBlob_getBlockListExceptionHeaders", type: { name: "Composite", className: "BlockBlobGetBlockListExceptionHeaders", modelProperties: { errorCode: { serializedName: "x-ms-error-code", xmlName: "x-ms-error-code", type: { name: "String" } } } } }; var Mappers = /*#__PURE__*/Object.freeze({ __proto__: null, BlobServiceProperties: BlobServiceProperties, Logging: Logging, RetentionPolicy: RetentionPolicy, Metrics: Metrics, CorsRule: CorsRule, StaticWebsite: StaticWebsite, StorageError: StorageError, BlobServiceStatistics: BlobServiceStatistics, GeoReplication: GeoReplication, ListContainersSegmentResponse: ListContainersSegmentResponse, ContainerItem: ContainerItem, ContainerProperties: ContainerProperties, KeyInfo: KeyInfo, UserDelegationKey: UserDelegationKey, FilterBlobSegment: FilterBlobSegment, FilterBlobItem: FilterBlobItem, BlobTags: BlobTags, BlobTag: BlobTag, SignedIdentifier: SignedIdentifier, AccessPolicy: AccessPolicy, ListBlobsFlatSegmentResponse: ListBlobsFlatSegmentResponse, BlobFlatListSegment: BlobFlatListSegment, BlobItemInternal: BlobItemInternal, BlobName: BlobName, BlobPropertiesInternal: BlobPropertiesInternal, ListBlobsHierarchySegmentResponse: ListBlobsHierarchySegmentResponse, BlobHierarchyListSegment: BlobHierarchyListSegment, BlobPrefix: BlobPrefix, BlockLookupList: BlockLookupList, BlockList: BlockList, Block: Block, PageList: PageList, PageRange: PageRange, ClearRange: ClearRange, QueryRequest: QueryRequest, QuerySerialization: QuerySerialization, QueryFormat: QueryFormat, DelimitedTextConfiguration: DelimitedTextConfiguration, JsonTextConfiguration: JsonTextConfiguration, ArrowConfiguration: ArrowConfiguration, ArrowField: ArrowField, ServiceSetPropertiesHeaders: ServiceSetPropertiesHeaders, ServiceSetPropertiesExceptionHeaders: ServiceSetPropertiesExceptionHeaders, ServiceGetPropertiesHeaders: ServiceGetPropertiesHeaders, ServiceGetPropertiesExceptionHeaders: ServiceGetPropertiesExceptionHeaders, ServiceGetStatisticsHeaders: ServiceGetStatisticsHeaders, ServiceGetStatisticsExceptionHeaders: ServiceGetStatisticsExceptionHeaders, ServiceListContainersSegmentHeaders: ServiceListContainersSegmentHeaders, ServiceListContainersSegmentExceptionHeaders: ServiceListContainersSegmentExceptionHeaders, ServiceGetUserDelegationKeyHeaders: ServiceGetUserDelegationKeyHeaders, ServiceGetUserDelegationKeyExceptionHeaders: ServiceGetUserDelegationKeyExceptionHeaders, ServiceGetAccountInfoHeaders: ServiceGetAccountInfoHeaders, ServiceGetAccountInfoExceptionHeaders: ServiceGetAccountInfoExceptionHeaders, ServiceSubmitBatchHeaders: ServiceSubmitBatchHeaders, ServiceSubmitBatchExceptionHeaders: ServiceSubmitBatchExceptionHeaders, ServiceFilterBlobsHeaders: ServiceFilterBlobsHeaders, ServiceFilterBlobsExceptionHeaders: ServiceFilterBlobsExceptionHeaders, ContainerCreateHeaders: ContainerCreateHeaders, ContainerCreateExceptionHeaders: ContainerCreateExceptionHeaders, ContainerGetPropertiesHeaders: ContainerGetPropertiesHeaders, ContainerGetPropertiesExceptionHeaders: ContainerGetPropertiesExceptionHeaders, ContainerDeleteHeaders: ContainerDeleteHeaders, ContainerDeleteExceptionHeaders: ContainerDeleteExceptionHeaders, ContainerSetMetadataHeaders: ContainerSetMetadataHeaders, ContainerSetMetadataExceptionHeaders: ContainerSetMetadataExceptionHeaders, ContainerGetAccessPolicyHeaders: ContainerGetAccessPolicyHeaders, ContainerGetAccessPolicyExceptionHeaders: ContainerGetAccessPolicyExceptionHeaders, ContainerSetAccessPolicyHeaders: ContainerSetAccessPolicyHeaders, ContainerSetAccessPolicyExceptionHeaders: ContainerSetAccessPolicyExceptionHeaders, ContainerRestoreHeaders: ContainerRestoreHeaders, ContainerRestoreExceptionHeaders: ContainerRestoreExceptionHeaders, ContainerRenameHeaders: ContainerRenameHeaders, ContainerRenameExceptionHeaders: ContainerRenameExceptionHeaders, ContainerSubmitBatchHeaders: ContainerSubmitBatchHeaders, ContainerSubmitBatchExceptionHeaders: ContainerSubmitBatchExceptionHeaders, ContainerFilterBlobsHeaders: ContainerFilterBlobsHeaders, ContainerFilterBlobsExceptionHeaders: ContainerFilterBlobsExceptionHeaders, ContainerAcquireLeaseHeaders: ContainerAcquireLeaseHeaders, ContainerAcquireLeaseExceptionHeaders: ContainerAcquireLeaseExceptionHeaders, ContainerReleaseLeaseHeaders: ContainerReleaseLeaseHeaders, ContainerReleaseLeaseExceptionHeaders: ContainerReleaseLeaseExceptionHeaders, ContainerRenewLeaseHeaders: ContainerRenewLeaseHeaders, ContainerRenewLeaseExceptionHeaders: ContainerRenewLeaseExceptionHeaders, ContainerBreakLeaseHeaders: ContainerBreakLeaseHeaders, ContainerBreakLeaseExceptionHeaders: ContainerBreakLeaseExceptionHeaders, ContainerChangeLeaseHeaders: ContainerChangeLeaseHeaders, ContainerChangeLeaseExceptionHeaders: ContainerChangeLeaseExceptionHeaders, ContainerListBlobFlatSegmentHeaders: ContainerListBlobFlatSegmentHeaders, ContainerListBlobFlatSegmentExceptionHeaders: ContainerListBlobFlatSegmentExceptionHeaders, ContainerListBlobHierarchySegmentHeaders: ContainerListBlobHierarchySegmentHeaders, ContainerListBlobHierarchySegmentExceptionHeaders: ContainerListBlobHierarchySegmentExceptionHeaders, ContainerGetAccountInfoHeaders: ContainerGetAccountInfoHeaders, ContainerGetAccountInfoExceptionHeaders: ContainerGetAccountInfoExceptionHeaders, BlobDownloadHeaders: BlobDownloadHeaders, BlobDownloadExceptionHeaders: BlobDownloadExceptionHeaders, BlobGetPropertiesHeaders: BlobGetPropertiesHeaders, BlobGetPropertiesExceptionHeaders: BlobGetPropertiesExceptionHeaders, BlobDeleteHeaders: BlobDeleteHeaders, BlobDeleteExceptionHeaders: BlobDeleteExceptionHeaders, BlobUndeleteHeaders: BlobUndeleteHeaders, BlobUndeleteExceptionHeaders: BlobUndeleteExceptionHeaders, BlobSetExpiryHeaders: BlobSetExpiryHeaders, BlobSetExpiryExceptionHeaders: BlobSetExpiryExceptionHeaders, BlobSetHttpHeadersHeaders: BlobSetHttpHeadersHeaders, BlobSetHttpHeadersExceptionHeaders: BlobSetHttpHeadersExceptionHeaders, BlobSetImmutabilityPolicyHeaders: BlobSetImmutabilityPolicyHeaders, BlobSetImmutabilityPolicyExceptionHeaders: BlobSetImmutabilityPolicyExceptionHeaders, BlobDeleteImmutabilityPolicyHeaders: BlobDeleteImmutabilityPolicyHeaders, BlobDeleteImmutabilityPolicyExceptionHeaders: BlobDeleteImmutabilityPolicyExceptionHeaders, BlobSetLegalHoldHeaders: BlobSetLegalHoldHeaders, BlobSetLegalHoldExceptionHeaders: BlobSetLegalHoldExceptionHeaders, BlobSetMetadataHeaders: BlobSetMetadataHeaders, BlobSetMetadataExceptionHeaders: BlobSetMetadataExceptionHeaders, BlobAcquireLeaseHeaders: BlobAcquireLeaseHeaders, BlobAcquireLeaseExceptionHeaders: BlobAcquireLeaseExceptionHeaders, BlobReleaseLeaseHeaders: BlobReleaseLeaseHeaders, BlobReleaseLeaseExceptionHeaders: BlobReleaseLeaseExceptionHeaders, BlobRenewLeaseHeaders: BlobRenewLeaseHeaders, BlobRenewLeaseExceptionHeaders: BlobRenewLeaseExceptionHeaders, BlobChangeLeaseHeaders: BlobChangeLeaseHeaders, BlobChangeLeaseExceptionHeaders: BlobChangeLeaseExceptionHeaders, BlobBreakLeaseHeaders: BlobBreakLeaseHeaders, BlobBreakLeaseExceptionHeaders: BlobBreakLeaseExceptionHeaders, BlobCreateSnapshotHeaders: BlobCreateSnapshotHeaders, BlobCreateSnapshotExceptionHeaders: BlobCreateSnapshotExceptionHeaders, BlobStartCopyFromURLHeaders: BlobStartCopyFromURLHeaders, BlobStartCopyFromURLExceptionHeaders: BlobStartCopyFromURLExceptionHeaders, BlobCopyFromURLHeaders: BlobCopyFromURLHeaders, BlobCopyFromURLExceptionHeaders: BlobCopyFromURLExceptionHeaders, BlobAbortCopyFromURLHeaders: BlobAbortCopyFromURLHeaders, BlobAbortCopyFromURLExceptionHeaders: BlobAbortCopyFromURLExceptionHeaders, BlobSetTierHeaders: BlobSetTierHeaders, BlobSetTierExceptionHeaders: BlobSetTierExceptionHeaders, BlobGetAccountInfoHeaders: BlobGetAccountInfoHeaders, BlobGetAccountInfoExceptionHeaders: BlobGetAccountInfoExceptionHeaders, BlobQueryHeaders: BlobQueryHeaders, BlobQueryExceptionHeaders: BlobQueryExceptionHeaders, BlobGetTagsHeaders: BlobGetTagsHeaders, BlobGetTagsExceptionHeaders: BlobGetTagsExceptionHeaders, BlobSetTagsHeaders: BlobSetTagsHeaders, BlobSetTagsExceptionHeaders: BlobSetTagsExceptionHeaders, PageBlobCreateHeaders: PageBlobCreateHeaders, PageBlobCreateExceptionHeaders: PageBlobCreateExceptionHeaders, PageBlobUploadPagesHeaders: PageBlobUploadPagesHeaders, PageBlobUploadPagesExceptionHeaders: PageBlobUploadPagesExceptionHeaders, PageBlobClearPagesHeaders: PageBlobClearPagesHeaders, PageBlobClearPagesExceptionHeaders: PageBlobClearPagesExceptionHeaders, PageBlobUploadPagesFromURLHeaders: PageBlobUploadPagesFromURLHeaders, PageBlobUploadPagesFromURLExceptionHeaders: PageBlobUploadPagesFromURLExceptionHeaders, PageBlobGetPageRangesHeaders: PageBlobGetPageRangesHeaders, PageBlobGetPageRangesExceptionHeaders: PageBlobGetPageRangesExceptionHeaders, PageBlobGetPageRangesDiffHeaders: PageBlobGetPageRangesDiffHeaders, PageBlobGetPageRangesDiffExceptionHeaders: PageBlobGetPageRangesDiffExceptionHeaders, PageBlobResizeHeaders: PageBlobResizeHeaders, PageBlobResizeExceptionHeaders: PageBlobResizeExceptionHeaders, PageBlobUpdateSequenceNumberHeaders: PageBlobUpdateSequenceNumberHeaders, PageBlobUpdateSequenceNumberExceptionHeaders: PageBlobUpdateSequenceNumberExceptionHeaders, PageBlobCopyIncrementalHeaders: PageBlobCopyIncrementalHeaders, PageBlobCopyIncrementalExceptionHeaders: PageBlobCopyIncrementalExceptionHeaders, AppendBlobCreateHeaders: AppendBlobCreateHeaders, AppendBlobCreateExceptionHeaders: AppendBlobCreateExceptionHeaders, AppendBlobAppendBlockHeaders: AppendBlobAppendBlockHeaders, AppendBlobAppendBlockExceptionHeaders: AppendBlobAppendBlockExceptionHeaders, AppendBlobAppendBlockFromUrlHeaders: AppendBlobAppendBlockFromUrlHeaders, AppendBlobAppendBlockFromUrlExceptionHeaders: AppendBlobAppendBlockFromUrlExceptionHeaders, AppendBlobSealHeaders: AppendBlobSealHeaders, AppendBlobSealExceptionHeaders: AppendBlobSealExceptionHeaders, BlockBlobUploadHeaders: BlockBlobUploadHeaders, BlockBlobUploadExceptionHeaders: BlockBlobUploadExceptionHeaders, BlockBlobPutBlobFromUrlHeaders: BlockBlobPutBlobFromUrlHeaders, BlockBlobPutBlobFromUrlExceptionHeaders: BlockBlobPutBlobFromUrlExceptionHeaders, BlockBlobStageBlockHeaders: BlockBlobStageBlockHeaders, BlockBlobStageBlockExceptionHeaders: BlockBlobStageBlockExceptionHeaders, BlockBlobStageBlockFromURLHeaders: BlockBlobStageBlockFromURLHeaders, BlockBlobStageBlockFromURLExceptionHeaders: BlockBlobStageBlockFromURLExceptionHeaders, BlockBlobCommitBlockListHeaders: BlockBlobCommitBlockListHeaders, BlockBlobCommitBlockListExceptionHeaders: BlockBlobCommitBlockListExceptionHeaders, BlockBlobGetBlockListHeaders: BlockBlobGetBlockListHeaders, BlockBlobGetBlockListExceptionHeaders: BlockBlobGetBlockListExceptionHeaders }); /* * Copyright (c) Microsoft Corporation. * Licensed under the MIT License. * * Code generated by Microsoft (R) AutoRest Code Generator. * Changes may cause incorrect behavior and will be lost if the code is regenerated. */ const contentType = { parameterPath: ["options", "contentType"], mapper: { defaultValue: "application/xml", isConstant: true, serializedName: "Content-Type", type: { name: "String" } } }; const blobServiceProperties = { parameterPath: "blobServiceProperties", mapper: BlobServiceProperties }; const accept = { parameterPath: "accept", mapper: { defaultValue: "application/xml", isConstant: true, serializedName: "Accept", type: { name: "String" } } }; const url = { parameterPath: "url", mapper: { serializedName: "url", required: true, xmlName: "url", type: { name: "String" } }, skipEncoding: true }; const restype = { parameterPath: "restype", mapper: { defaultValue: "service", isConstant: true, serializedName: "restype", type: { name: "String" } } }; const comp = { parameterPath: "comp", mapper: { defaultValue: "properties", isConstant: true, serializedName: "comp", type: { name: "String" } } }; const timeoutInSeconds = { parameterPath: ["options", "timeoutInSeconds"], mapper: { constraints: { InclusiveMinimum: 0 }, serializedName: "timeout", xmlName: "timeout", type: { name: "Number" } } }; const version = { parameterPath: "version", mapper: { defaultValue: "2022-11-02", isConstant: true, serializedName: "x-ms-version", type: { name: "String" } } }; const requestId = { parameterPath: ["options", "requestId"], mapper: { serializedName: "x-ms-client-request-id", xmlName: "x-ms-client-request-id", type: { name: "String" } } }; const accept1 = { parameterPath: "accept", mapper: { defaultValue: "application/xml", isConstant: true, serializedName: "Accept", type: { name: "String" } } }; const comp1 = { parameterPath: "comp", mapper: { defaultValue: "stats", isConstant: true, serializedName: "comp", type: { name: "String" } } }; const comp2 = { parameterPath: "comp", mapper: { defaultValue: "list", isConstant: true, serializedName: "comp", type: { name: "String" } } }; const prefix = { parameterPath: ["options", "prefix"], mapper: { serializedName: "prefix", xmlName: "prefix", type: { name: "String" } } }; const marker = { parameterPath: ["options", "marker"], mapper: { serializedName: "marker", xmlName: "marker", type: { name: "String" } } }; const maxPageSize = { parameterPath: ["options", "maxPageSize"], mapper: { constraints: { InclusiveMinimum: 1 }, serializedName: "maxresults", xmlName: "maxresults", type: { name: "Number" } } }; const include = { parameterPath: ["options", "include"], mapper: { serializedName: "include", xmlName: "include", xmlElementName: "ListContainersIncludeType", type: { name: "Sequence", element: { type: { name: "Enum", allowedValues: ["metadata", "deleted", "system"] } } } }, collectionFormat: coreHttp.QueryCollectionFormat.Csv }; const keyInfo = { parameterPath: "keyInfo", mapper: KeyInfo }; const comp3 = { parameterPath: "comp", mapper: { defaultValue: "userdelegationkey", isConstant: true, serializedName: "comp", type: { name: "String" } } }; const restype1 = { parameterPath: "restype", mapper: { defaultValue: "account", isConstant: true, serializedName: "restype", type: { name: "String" } } }; const body = { parameterPath: "body", mapper: { serializedName: "body", required: true, xmlName: "body", type: { name: "Stream" } } }; const comp4 = { parameterPath: "comp", mapper: { defaultValue: "batch", isConstant: true, serializedName: "comp", type: { name: "String" } } }; const contentLength = { parameterPath: "contentLength", mapper: { serializedName: "Content-Length", required: true, xmlName: "Content-Length", type: { name: "Number" } } }; const multipartContentType = { parameterPath: "multipartContentType", mapper: { serializedName: "Content-Type", required: true, xmlName: "Content-Type", type: { name: "String" } } }; const comp5 = { parameterPath: "comp", mapper: { defaultValue: "blobs", isConstant: true, serializedName: "comp", type: { name: "String" } } }; const where = { parameterPath: ["options", "where"], mapper: { serializedName: "where", xmlName: "where", type: { name: "String" } } }; const restype2 = { parameterPath: "restype", mapper: { defaultValue: "container", isConstant: true, serializedName: "restype", type: { name: "String" } } }; const metadata = { parameterPath: ["options", "metadata"], mapper: { serializedName: "x-ms-meta", xmlName: "x-ms-meta", type: { name: "Dictionary", value: { type: { name: "String" } } }, headerCollectionPrefix: "x-ms-meta-" } }; const access = { parameterPath: ["options", "access"], mapper: { serializedName: "x-ms-blob-public-access", xmlName: "x-ms-blob-public-access", type: { name: "Enum", allowedValues: ["container", "blob"] } } }; const defaultEncryptionScope = { parameterPath: [ "options", "containerEncryptionScope", "defaultEncryptionScope" ], mapper: { serializedName: "x-ms-default-encryption-scope", xmlName: "x-ms-default-encryption-scope", type: { name: "String" } } }; const preventEncryptionScopeOverride = { parameterPath: [ "options", "containerEncryptionScope", "preventEncryptionScopeOverride" ], mapper: { serializedName: "x-ms-deny-encryption-scope-override", xmlName: "x-ms-deny-encryption-scope-override", type: { name: "Boolean" } } }; const leaseId = { parameterPath: ["options", "leaseAccessConditions", "leaseId"], mapper: { serializedName: "x-ms-lease-id", xmlName: "x-ms-lease-id", type: { name: "String" } } }; const ifModifiedSince = { parameterPath: ["options", "modifiedAccessConditions", "ifModifiedSince"], mapper: { serializedName: "If-Modified-Since", xmlName: "If-Modified-Since", type: { name: "DateTimeRfc1123" } } }; const ifUnmodifiedSince = { parameterPath: ["options", "modifiedAccessConditions", "ifUnmodifiedSince"], mapper: { serializedName: "If-Unmodified-Since", xmlName: "If-Unmodified-Since", type: { name: "DateTimeRfc1123" } } }; const comp6 = { parameterPath: "comp", mapper: { defaultValue: "metadata", isConstant: true, serializedName: "comp", type: { name: "String" } } }; const comp7 = { parameterPath: "comp", mapper: { defaultValue: "acl", isConstant: true, serializedName: "comp", type: { name: "String" } } }; const containerAcl = { parameterPath: ["options", "containerAcl"], mapper: { serializedName: "containerAcl", xmlName: "SignedIdentifiers", xmlIsWrapped: true, xmlElementName: "SignedIdentifier", type: { name: "Sequence", element: { type: { name: "Composite", className: "SignedIdentifier" } } } } }; const comp8 = { parameterPath: "comp", mapper: { defaultValue: "undelete", isConstant: true, serializedName: "comp", type: { name: "String" } } }; const deletedContainerName = { parameterPath: ["options", "deletedContainerName"], mapper: { serializedName: "x-ms-deleted-container-name", xmlName: "x-ms-deleted-container-name", type: { name: "String" } } }; const deletedContainerVersion = { parameterPath: ["options", "deletedContainerVersion"], mapper: { serializedName: "x-ms-deleted-container-version", xmlName: "x-ms-deleted-container-version", type: { name: "String" } } }; const comp9 = { parameterPath: "comp", mapper: { defaultValue: "rename", isConstant: true, serializedName: "comp", type: { name: "String" } } }; const sourceContainerName = { parameterPath: "sourceContainerName", mapper: { serializedName: "x-ms-source-container-name", required: true, xmlName: "x-ms-source-container-name", type: { name: "String" } } }; const sourceLeaseId = { parameterPath: ["options", "sourceLeaseId"], mapper: { serializedName: "x-ms-source-lease-id", xmlName: "x-ms-source-lease-id", type: { name: "String" } } }; const comp10 = { parameterPath: "comp", mapper: { defaultValue: "lease", isConstant: true, serializedName: "comp", type: { name: "String" } } }; const action = { parameterPath: "action", mapper: { defaultValue: "acquire", isConstant: true, serializedName: "x-ms-lease-action", type: { name: "String" } } }; const duration = { parameterPath: ["options", "duration"], mapper: { serializedName: "x-ms-lease-duration", xmlName: "x-ms-lease-duration", type: { name: "Number" } } }; const proposedLeaseId = { parameterPath: ["options", "proposedLeaseId"], mapper: { serializedName: "x-ms-proposed-lease-id", xmlName: "x-ms-proposed-lease-id", type: { name: "String" } } }; const action1 = { parameterPath: "action", mapper: { defaultValue: "release", isConstant: true, serializedName: "x-ms-lease-action", type: { name: "String" } } }; const leaseId1 = { parameterPath: "leaseId", mapper: { serializedName: "x-ms-lease-id", required: true, xmlName: "x-ms-lease-id", type: { name: "String" } } }; const action2 = { parameterPath: "action", mapper: { defaultValue: "renew", isConstant: true, serializedName: "x-ms-lease-action", type: { name: "String" } } }; const action3 = { parameterPath: "action", mapper: { defaultValue: "break", isConstant: true, serializedName: "x-ms-lease-action", type: { name: "String" } } }; const breakPeriod = { parameterPath: ["options", "breakPeriod"], mapper: { serializedName: "x-ms-lease-break-period", xmlName: "x-ms-lease-break-period", type: { name: "Number" } } }; const action4 = { parameterPath: "action", mapper: { defaultValue: "change", isConstant: true, serializedName: "x-ms-lease-action", type: { name: "String" } } }; const proposedLeaseId1 = { parameterPath: "proposedLeaseId", mapper: { serializedName: "x-ms-proposed-lease-id", required: true, xmlName: "x-ms-proposed-lease-id", type: { name: "String" } } }; const include1 = { parameterPath: ["options", "include"], mapper: { serializedName: "include", xmlName: "include", xmlElementName: "ListBlobsIncludeItem", type: { name: "Sequence", element: { type: { name: "Enum", allowedValues: [ "copy", "deleted", "metadata", "snapshots", "uncommittedblobs", "versions", "tags", "immutabilitypolicy", "legalhold", "deletedwithversions" ] } } } }, collectionFormat: coreHttp.QueryCollectionFormat.Csv }; const delimiter = { parameterPath: "delimiter", mapper: { serializedName: "delimiter", required: true, xmlName: "delimiter", type: { name: "String" } } }; const snapshot = { parameterPath: ["options", "snapshot"], mapper: { serializedName: "snapshot", xmlName: "snapshot", type: { name: "String" } } }; const versionId = { parameterPath: ["options", "versionId"], mapper: { serializedName: "versionid", xmlName: "versionid", type: { name: "String" } } }; const range = { parameterPath: ["options", "range"], mapper: { serializedName: "x-ms-range", xmlName: "x-ms-range", type: { name: "String" } } }; const rangeGetContentMD5 = { parameterPath: ["options", "rangeGetContentMD5"], mapper: { serializedName: "x-ms-range-get-content-md5", xmlName: "x-ms-range-get-content-md5", type: { name: "Boolean" } } }; const rangeGetContentCRC64 = { parameterPath: ["options", "rangeGetContentCRC64"], mapper: { serializedName: "x-ms-range-get-content-crc64", xmlName: "x-ms-range-get-content-crc64", type: { name: "Boolean" } } }; const encryptionKey = { parameterPath: ["options", "cpkInfo", "encryptionKey"], mapper: { serializedName: "x-ms-encryption-key", xmlName: "x-ms-encryption-key", type: { name: "String" } } }; const encryptionKeySha256 = { parameterPath: ["options", "cpkInfo", "encryptionKeySha256"], mapper: { serializedName: "x-ms-encryption-key-sha256", xmlName: "x-ms-encryption-key-sha256", type: { name: "String" } } }; const encryptionAlgorithm = { parameterPath: ["options", "cpkInfo", "encryptionAlgorithm"], mapper: { serializedName: "x-ms-encryption-algorithm", xmlName: "x-ms-encryption-algorithm", type: { name: "String" } } }; const ifMatch = { parameterPath: ["options", "modifiedAccessConditions", "ifMatch"], mapper: { serializedName: "If-Match", xmlName: "If-Match", type: { name: "String" } } }; const ifNoneMatch = { parameterPath: ["options", "modifiedAccessConditions", "ifNoneMatch"], mapper: { serializedName: "If-None-Match", xmlName: "If-None-Match", type: { name: "String" } } }; const ifTags = { parameterPath: ["options", "modifiedAccessConditions", "ifTags"], mapper: { serializedName: "x-ms-if-tags", xmlName: "x-ms-if-tags", type: { name: "String" } } }; const deleteSnapshots = { parameterPath: ["options", "deleteSnapshots"], mapper: { serializedName: "x-ms-delete-snapshots", xmlName: "x-ms-delete-snapshots", type: { name: "Enum", allowedValues: ["include", "only"] } } }; const blobDeleteType = { parameterPath: ["options", "blobDeleteType"], mapper: { serializedName: "deletetype", xmlName: "deletetype", type: { name: "String" } } }; const comp11 = { parameterPath: "comp", mapper: { defaultValue: "expiry", isConstant: true, serializedName: "comp", type: { name: "String" } } }; const expiryOptions = { parameterPath: "expiryOptions", mapper: { serializedName: "x-ms-expiry-option", required: true, xmlName: "x-ms-expiry-option", type: { name: "String" } } }; const expiresOn = { parameterPath: ["options", "expiresOn"], mapper: { serializedName: "x-ms-expiry-time", xmlName: "x-ms-expiry-time", type: { name: "String" } } }; const blobCacheControl = { parameterPath: ["options", "blobHttpHeaders", "blobCacheControl"], mapper: { serializedName: "x-ms-blob-cache-control", xmlName: "x-ms-blob-cache-control", type: { name: "String" } } }; const blobContentType = { parameterPath: ["options", "blobHttpHeaders", "blobContentType"], mapper: { serializedName: "x-ms-blob-content-type", xmlName: "x-ms-blob-content-type", type: { name: "String" } } }; const blobContentMD5 = { parameterPath: ["options", "blobHttpHeaders", "blobContentMD5"], mapper: { serializedName: "x-ms-blob-content-md5", xmlName: "x-ms-blob-content-md5", type: { name: "ByteArray" } } }; const blobContentEncoding = { parameterPath: ["options", "blobHttpHeaders", "blobContentEncoding"], mapper: { serializedName: "x-ms-blob-content-encoding", xmlName: "x-ms-blob-content-encoding", type: { name: "String" } } }; const blobContentLanguage = { parameterPath: ["options", "blobHttpHeaders", "blobContentLanguage"], mapper: { serializedName: "x-ms-blob-content-language", xmlName: "x-ms-blob-content-language", type: { name: "String" } } }; const blobContentDisposition = { parameterPath: ["options", "blobHttpHeaders", "blobContentDisposition"], mapper: { serializedName: "x-ms-blob-content-disposition", xmlName: "x-ms-blob-content-disposition", type: { name: "String" } } }; const comp12 = { parameterPath: "comp", mapper: { defaultValue: "immutabilityPolicies", isConstant: true, serializedName: "comp", type: { name: "String" } } }; const immutabilityPolicyExpiry = { parameterPath: ["options", "immutabilityPolicyExpiry"], mapper: { serializedName: "x-ms-immutability-policy-until-date", xmlName: "x-ms-immutability-policy-until-date", type: { name: "DateTimeRfc1123" } } }; const immutabilityPolicyMode = { parameterPath: ["options", "immutabilityPolicyMode"], mapper: { serializedName: "x-ms-immutability-policy-mode", xmlName: "x-ms-immutability-policy-mode", type: { name: "Enum", allowedValues: ["Mutable", "Unlocked", "Locked"] } } }; const comp13 = { parameterPath: "comp", mapper: { defaultValue: "legalhold", isConstant: true, serializedName: "comp", type: { name: "String" } } }; const legalHold = { parameterPath: "legalHold", mapper: { serializedName: "x-ms-legal-hold", required: true, xmlName: "x-ms-legal-hold", type: { name: "Boolean" } } }; const encryptionScope = { parameterPath: ["options", "encryptionScope"], mapper: { serializedName: "x-ms-encryption-scope", xmlName: "x-ms-encryption-scope", type: { name: "String" } } }; const comp14 = { parameterPath: "comp", mapper: { defaultValue: "snapshot", isConstant: true, serializedName: "comp", type: { name: "String" } } }; const tier = { parameterPath: ["options", "tier"], mapper: { serializedName: "x-ms-access-tier", xmlName: "x-ms-access-tier", type: { name: "Enum", allowedValues: [ "P4", "P6", "P10", "P15", "P20", "P30", "P40", "P50", "P60", "P70", "P80", "Hot", "Cool", "Archive", "Cold" ] } } }; const rehydratePriority = { parameterPath: ["options", "rehydratePriority"], mapper: { serializedName: "x-ms-rehydrate-priority", xmlName: "x-ms-rehydrate-priority", type: { name: "Enum", allowedValues: ["High", "Standard"] } } }; const sourceIfModifiedSince = { parameterPath: [ "options", "sourceModifiedAccessConditions", "sourceIfModifiedSince" ], mapper: { serializedName: "x-ms-source-if-modified-since", xmlName: "x-ms-source-if-modified-since", type: { name: "DateTimeRfc1123" } } }; const sourceIfUnmodifiedSince = { parameterPath: [ "options", "sourceModifiedAccessConditions", "sourceIfUnmodifiedSince" ], mapper: { serializedName: "x-ms-source-if-unmodified-since", xmlName: "x-ms-source-if-unmodified-since", type: { name: "DateTimeRfc1123" } } }; const sourceIfMatch = { parameterPath: ["options", "sourceModifiedAccessConditions", "sourceIfMatch"], mapper: { serializedName: "x-ms-source-if-match", xmlName: "x-ms-source-if-match", type: { name: "String" } } }; const sourceIfNoneMatch = { parameterPath: [ "options", "sourceModifiedAccessConditions", "sourceIfNoneMatch" ], mapper: { serializedName: "x-ms-source-if-none-match", xmlName: "x-ms-source-if-none-match", type: { name: "String" } } }; const sourceIfTags = { parameterPath: ["options", "sourceModifiedAccessConditions", "sourceIfTags"], mapper: { serializedName: "x-ms-source-if-tags", xmlName: "x-ms-source-if-tags", type: { name: "String" } } }; const copySource = { parameterPath: "copySource", mapper: { serializedName: "x-ms-copy-source", required: true, xmlName: "x-ms-copy-source", type: { name: "String" } } }; const blobTagsString = { parameterPath: ["options", "blobTagsString"], mapper: { serializedName: "x-ms-tags", xmlName: "x-ms-tags", type: { name: "String" } } }; const sealBlob = { parameterPath: ["options", "sealBlob"], mapper: { serializedName: "x-ms-seal-blob", xmlName: "x-ms-seal-blob", type: { name: "Boolean" } } }; const legalHold1 = { parameterPath: ["options", "legalHold"], mapper: { serializedName: "x-ms-legal-hold", xmlName: "x-ms-legal-hold", type: { name: "Boolean" } } }; const xMsRequiresSync = { parameterPath: "xMsRequiresSync", mapper: { defaultValue: "true", isConstant: true, serializedName: "x-ms-requires-sync", type: { name: "String" } } }; const sourceContentMD5 = { parameterPath: ["options", "sourceContentMD5"], mapper: { serializedName: "x-ms-source-content-md5", xmlName: "x-ms-source-content-md5", type: { name: "ByteArray" } } }; const copySourceAuthorization = { parameterPath: ["options", "copySourceAuthorization"], mapper: { serializedName: "x-ms-copy-source-authorization", xmlName: "x-ms-copy-source-authorization", type: { name: "String" } } }; const copySourceTags = { parameterPath: ["options", "copySourceTags"], mapper: { serializedName: "x-ms-copy-source-tag-option", xmlName: "x-ms-copy-source-tag-option", type: { name: "Enum", allowedValues: ["REPLACE", "COPY"] } } }; const comp15 = { parameterPath: "comp", mapper: { defaultValue: "copy", isConstant: true, serializedName: "comp", type: { name: "String" } } }; const copyActionAbortConstant = { parameterPath: "copyActionAbortConstant", mapper: { defaultValue: "abort", isConstant: true, serializedName: "x-ms-copy-action", type: { name: "String" } } }; const copyId = { parameterPath: "copyId", mapper: { serializedName: "copyid", required: true, xmlName: "copyid", type: { name: "String" } } }; const comp16 = { parameterPath: "comp", mapper: { defaultValue: "tier", isConstant: true, serializedName: "comp", type: { name: "String" } } }; const tier1 = { parameterPath: "tier", mapper: { serializedName: "x-ms-access-tier", required: true, xmlName: "x-ms-access-tier", type: { name: "Enum", allowedValues: [ "P4", "P6", "P10", "P15", "P20", "P30", "P40", "P50", "P60", "P70", "P80", "Hot", "Cool", "Archive", "Cold" ] } } }; const queryRequest = { parameterPath: ["options", "queryRequest"], mapper: QueryRequest }; const comp17 = { parameterPath: "comp", mapper: { defaultValue: "query", isConstant: true, serializedName: "comp", type: { name: "String" } } }; const comp18 = { parameterPath: "comp", mapper: { defaultValue: "tags", isConstant: true, serializedName: "comp", type: { name: "String" } } }; const tags = { parameterPath: ["options", "tags"], mapper: BlobTags }; const transactionalContentMD5 = { parameterPath: ["options", "transactionalContentMD5"], mapper: { serializedName: "Content-MD5", xmlName: "Content-MD5", type: { name: "ByteArray" } } }; const transactionalContentCrc64 = { parameterPath: ["options", "transactionalContentCrc64"], mapper: { serializedName: "x-ms-content-crc64", xmlName: "x-ms-content-crc64", type: { name: "ByteArray" } } }; const blobType = { parameterPath: "blobType", mapper: { defaultValue: "PageBlob", isConstant: true, serializedName: "x-ms-blob-type", type: { name: "String" } } }; const blobContentLength = { parameterPath: "blobContentLength", mapper: { serializedName: "x-ms-blob-content-length", required: true, xmlName: "x-ms-blob-content-length", type: { name: "Number" } } }; const blobSequenceNumber = { parameterPath: ["options", "blobSequenceNumber"], mapper: { serializedName: "x-ms-blob-sequence-number", xmlName: "x-ms-blob-sequence-number", type: { name: "Number" } } }; const contentType1 = { parameterPath: ["options", "contentType"], mapper: { defaultValue: "application/octet-stream", isConstant: true, serializedName: "Content-Type", type: { name: "String" } } }; const body1 = { parameterPath: "body", mapper: { serializedName: "body", required: true, xmlName: "body", type: { name: "Stream" } } }; const accept2 = { parameterPath: "accept", mapper: { defaultValue: "application/xml", isConstant: true, serializedName: "Accept", type: { name: "String" } } }; const comp19 = { parameterPath: "comp", mapper: { defaultValue: "page", isConstant: true, serializedName: "comp", type: { name: "String" } } }; const pageWrite = { parameterPath: "pageWrite", mapper: { defaultValue: "update", isConstant: true, serializedName: "x-ms-page-write", type: { name: "String" } } }; const ifSequenceNumberLessThanOrEqualTo = { parameterPath: [ "options", "sequenceNumberAccessConditions", "ifSequenceNumberLessThanOrEqualTo" ], mapper: { serializedName: "x-ms-if-sequence-number-le", xmlName: "x-ms-if-sequence-number-le", type: { name: "Number" } } }; const ifSequenceNumberLessThan = { parameterPath: [ "options", "sequenceNumberAccessConditions", "ifSequenceNumberLessThan" ], mapper: { serializedName: "x-ms-if-sequence-number-lt", xmlName: "x-ms-if-sequence-number-lt", type: { name: "Number" } } }; const ifSequenceNumberEqualTo = { parameterPath: [ "options", "sequenceNumberAccessConditions", "ifSequenceNumberEqualTo" ], mapper: { serializedName: "x-ms-if-sequence-number-eq", xmlName: "x-ms-if-sequence-number-eq", type: { name: "Number" } } }; const pageWrite1 = { parameterPath: "pageWrite", mapper: { defaultValue: "clear", isConstant: true, serializedName: "x-ms-page-write", type: { name: "String" } } }; const sourceUrl = { parameterPath: "sourceUrl", mapper: { serializedName: "x-ms-copy-source", required: true, xmlName: "x-ms-copy-source", type: { name: "String" } } }; const sourceRange = { parameterPath: "sourceRange", mapper: { serializedName: "x-ms-source-range", required: true, xmlName: "x-ms-source-range", type: { name: "String" } } }; const sourceContentCrc64 = { parameterPath: ["options", "sourceContentCrc64"], mapper: { serializedName: "x-ms-source-content-crc64", xmlName: "x-ms-source-content-crc64", type: { name: "ByteArray" } } }; const range1 = { parameterPath: "range", mapper: { serializedName: "x-ms-range", required: true, xmlName: "x-ms-range", type: { name: "String" } } }; const comp20 = { parameterPath: "comp", mapper: { defaultValue: "pagelist", isConstant: true, serializedName: "comp", type: { name: "String" } } }; const prevsnapshot = { parameterPath: ["options", "prevsnapshot"], mapper: { serializedName: "prevsnapshot", xmlName: "prevsnapshot", type: { name: "String" } } }; const prevSnapshotUrl = { parameterPath: ["options", "prevSnapshotUrl"], mapper: { serializedName: "x-ms-previous-snapshot-url", xmlName: "x-ms-previous-snapshot-url", type: { name: "String" } } }; const sequenceNumberAction = { parameterPath: "sequenceNumberAction", mapper: { serializedName: "x-ms-sequence-number-action", required: true, xmlName: "x-ms-sequence-number-action", type: { name: "Enum", allowedValues: ["max", "update", "increment"] } } }; const comp21 = { parameterPath: "comp", mapper: { defaultValue: "incrementalcopy", isConstant: true, serializedName: "comp", type: { name: "String" } } }; const blobType1 = { parameterPath: "blobType", mapper: { defaultValue: "AppendBlob", isConstant: true, serializedName: "x-ms-blob-type", type: { name: "String" } } }; const comp22 = { parameterPath: "comp", mapper: { defaultValue: "appendblock", isConstant: true, serializedName: "comp", type: { name: "String" } } }; const maxSize = { parameterPath: ["options", "appendPositionAccessConditions", "maxSize"], mapper: { serializedName: "x-ms-blob-condition-maxsize", xmlName: "x-ms-blob-condition-maxsize", type: { name: "Number" } } }; const appendPosition = { parameterPath: [ "options", "appendPositionAccessConditions", "appendPosition" ], mapper: { serializedName: "x-ms-blob-condition-appendpos", xmlName: "x-ms-blob-condition-appendpos", type: { name: "Number" } } }; const sourceRange1 = { parameterPath: ["options", "sourceRange"], mapper: { serializedName: "x-ms-source-range", xmlName: "x-ms-source-range", type: { name: "String" } } }; const comp23 = { parameterPath: "comp", mapper: { defaultValue: "seal", isConstant: true, serializedName: "comp", type: { name: "String" } } }; const blobType2 = { parameterPath: "blobType", mapper: { defaultValue: "BlockBlob", isConstant: true, serializedName: "x-ms-blob-type", type: { name: "String" } } }; const copySourceBlobProperties = { parameterPath: ["options", "copySourceBlobProperties"], mapper: { serializedName: "x-ms-copy-source-blob-properties", xmlName: "x-ms-copy-source-blob-properties", type: { name: "Boolean" } } }; const comp24 = { parameterPath: "comp", mapper: { defaultValue: "block", isConstant: true, serializedName: "comp", type: { name: "String" } } }; const blockId = { parameterPath: "blockId", mapper: { serializedName: "blockid", required: true, xmlName: "blockid", type: { name: "String" } } }; const blocks = { parameterPath: "blocks", mapper: BlockLookupList }; const comp25 = { parameterPath: "comp", mapper: { defaultValue: "blocklist", isConstant: true, serializedName: "comp", type: { name: "String" } } }; const listType = { parameterPath: "listType", mapper: { defaultValue: "committed", serializedName: "blocklisttype", required: true, xmlName: "blocklisttype", type: { name: "Enum", allowedValues: ["committed", "uncommitted", "all"] } } }; /* * Copyright (c) Microsoft Corporation. * Licensed under the MIT License. * * Code generated by Microsoft (R) AutoRest Code Generator. * Changes may cause incorrect behavior and will be lost if the code is regenerated. */ /** Class representing a Service. */ class Service { /** * Initialize a new instance of the class Service class. * @param client Reference to the service client */ constructor(client) { this.client = client; } /** * Sets properties for a storage account's Blob service endpoint, including properties for Storage * Analytics and CORS (Cross-Origin Resource Sharing) rules * @param blobServiceProperties The StorageService properties. * @param options The options parameters. */ setProperties(blobServiceProperties, options) { const operationArguments = { blobServiceProperties, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, setPropertiesOperationSpec); } /** * gets the properties of a storage account's Blob service, including properties for Storage Analytics * and CORS (Cross-Origin Resource Sharing) rules. * @param options The options parameters. */ getProperties(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, getPropertiesOperationSpec$2); } /** * Retrieves statistics related to replication for the Blob service. It is only available on the * secondary location endpoint when read-access geo-redundant replication is enabled for the storage * account. * @param options The options parameters. */ getStatistics(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, getStatisticsOperationSpec); } /** * The List Containers Segment operation returns a list of the containers under the specified account * @param options The options parameters. */ listContainersSegment(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, listContainersSegmentOperationSpec); } /** * Retrieves a user delegation key for the Blob service. This is only a valid operation when using * bearer token authentication. * @param keyInfo Key information * @param options The options parameters. */ getUserDelegationKey(keyInfo, options) { const operationArguments = { keyInfo, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, getUserDelegationKeyOperationSpec); } /** * Returns the sku name and account kind * @param options The options parameters. */ getAccountInfo(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, getAccountInfoOperationSpec$2); } /** * The Batch operation allows multiple API calls to be embedded into a single HTTP request. * @param contentLength The length of the request. * @param multipartContentType Required. The value of this header must be multipart/mixed with a batch * boundary. Example header value: multipart/mixed; boundary=batch_ * @param body Initial data * @param options The options parameters. */ submitBatch(contentLength, multipartContentType, body, options) { const operationArguments = { contentLength, multipartContentType, body, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, submitBatchOperationSpec$1); } /** * The Filter Blobs operation enables callers to list blobs across all containers whose tags match a * given search expression. Filter blobs searches across all containers within a storage account but * can be scoped within the expression to a single container. * @param options The options parameters. */ filterBlobs(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, filterBlobsOperationSpec$1); } } // Operation Specifications const xmlSerializer$5 = new coreHttp__namespace.Serializer(Mappers, /* isXml */ true); const setPropertiesOperationSpec = { path: "/", httpMethod: "PUT", responses: { 202: { headersMapper: ServiceSetPropertiesHeaders }, default: { bodyMapper: StorageError, headersMapper: ServiceSetPropertiesExceptionHeaders } }, requestBody: blobServiceProperties, queryParameters: [ restype, comp, timeoutInSeconds ], urlParameters: [url], headerParameters: [ contentType, accept, version, requestId ], isXML: true, contentType: "application/xml; charset=utf-8", mediaType: "xml", serializer: xmlSerializer$5 }; const getPropertiesOperationSpec$2 = { path: "/", httpMethod: "GET", responses: { 200: { bodyMapper: BlobServiceProperties, headersMapper: ServiceGetPropertiesHeaders }, default: { bodyMapper: StorageError, headersMapper: ServiceGetPropertiesExceptionHeaders } }, queryParameters: [ restype, comp, timeoutInSeconds ], urlParameters: [url], headerParameters: [ version, requestId, accept1 ], isXML: true, serializer: xmlSerializer$5 }; const getStatisticsOperationSpec = { path: "/", httpMethod: "GET", responses: { 200: { bodyMapper: BlobServiceStatistics, headersMapper: ServiceGetStatisticsHeaders }, default: { bodyMapper: StorageError, headersMapper: ServiceGetStatisticsExceptionHeaders } }, queryParameters: [ restype, timeoutInSeconds, comp1 ], urlParameters: [url], headerParameters: [ version, requestId, accept1 ], isXML: true, serializer: xmlSerializer$5 }; const listContainersSegmentOperationSpec = { path: "/", httpMethod: "GET", responses: { 200: { bodyMapper: ListContainersSegmentResponse, headersMapper: ServiceListContainersSegmentHeaders }, default: { bodyMapper: StorageError, headersMapper: ServiceListContainersSegmentExceptionHeaders } }, queryParameters: [ timeoutInSeconds, comp2, prefix, marker, maxPageSize, include ], urlParameters: [url], headerParameters: [ version, requestId, accept1 ], isXML: true, serializer: xmlSerializer$5 }; const getUserDelegationKeyOperationSpec = { path: "/", httpMethod: "POST", responses: { 200: { bodyMapper: UserDelegationKey, headersMapper: ServiceGetUserDelegationKeyHeaders }, default: { bodyMapper: StorageError, headersMapper: ServiceGetUserDelegationKeyExceptionHeaders } }, requestBody: keyInfo, queryParameters: [ restype, timeoutInSeconds, comp3 ], urlParameters: [url], headerParameters: [ contentType, accept, version, requestId ], isXML: true, contentType: "application/xml; charset=utf-8", mediaType: "xml", serializer: xmlSerializer$5 }; const getAccountInfoOperationSpec$2 = { path: "/", httpMethod: "GET", responses: { 200: { headersMapper: ServiceGetAccountInfoHeaders }, default: { bodyMapper: StorageError, headersMapper: ServiceGetAccountInfoExceptionHeaders } }, queryParameters: [comp, restype1], urlParameters: [url], headerParameters: [version, accept1], isXML: true, serializer: xmlSerializer$5 }; const submitBatchOperationSpec$1 = { path: "/", httpMethod: "POST", responses: { 202: { bodyMapper: { type: { name: "Stream" }, serializedName: "parsedResponse" }, headersMapper: ServiceSubmitBatchHeaders }, default: { bodyMapper: StorageError, headersMapper: ServiceSubmitBatchExceptionHeaders } }, requestBody: body, queryParameters: [timeoutInSeconds, comp4], urlParameters: [url], headerParameters: [ contentType, accept, version, requestId, contentLength, multipartContentType ], isXML: true, contentType: "application/xml; charset=utf-8", mediaType: "xml", serializer: xmlSerializer$5 }; const filterBlobsOperationSpec$1 = { path: "/", httpMethod: "GET", responses: { 200: { bodyMapper: FilterBlobSegment, headersMapper: ServiceFilterBlobsHeaders }, default: { bodyMapper: StorageError, headersMapper: ServiceFilterBlobsExceptionHeaders } }, queryParameters: [ timeoutInSeconds, marker, maxPageSize, comp5, where ], urlParameters: [url], headerParameters: [ version, requestId, accept1 ], isXML: true, serializer: xmlSerializer$5 }; /* * Copyright (c) Microsoft Corporation. * Licensed under the MIT License. * * Code generated by Microsoft (R) AutoRest Code Generator. * Changes may cause incorrect behavior and will be lost if the code is regenerated. */ /** Class representing a Container. */ class Container { /** * Initialize a new instance of the class Container class. * @param client Reference to the service client */ constructor(client) { this.client = client; } /** * creates a new container under the specified account. If the container with the same name already * exists, the operation fails * @param options The options parameters. */ create(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, createOperationSpec$2); } /** * returns all user-defined metadata and system properties for the specified container. The data * returned does not include the container's list of blobs * @param options The options parameters. */ getProperties(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, getPropertiesOperationSpec$1); } /** * operation marks the specified container for deletion. The container and any blobs contained within * it are later deleted during garbage collection * @param options The options parameters. */ delete(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, deleteOperationSpec$1); } /** * operation sets one or more user-defined name-value pairs for the specified container. * @param options The options parameters. */ setMetadata(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, setMetadataOperationSpec$1); } /** * gets the permissions for the specified container. The permissions indicate whether container data * may be accessed publicly. * @param options The options parameters. */ getAccessPolicy(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, getAccessPolicyOperationSpec); } /** * sets the permissions for the specified container. The permissions indicate whether blobs in a * container may be accessed publicly. * @param options The options parameters. */ setAccessPolicy(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, setAccessPolicyOperationSpec); } /** * Restores a previously-deleted container. * @param options The options parameters. */ restore(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, restoreOperationSpec); } /** * Renames an existing container. * @param sourceContainerName Required. Specifies the name of the container to rename. * @param options The options parameters. */ rename(sourceContainerName, options) { const operationArguments = { sourceContainerName, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, renameOperationSpec); } /** * The Batch operation allows multiple API calls to be embedded into a single HTTP request. * @param contentLength The length of the request. * @param multipartContentType Required. The value of this header must be multipart/mixed with a batch * boundary. Example header value: multipart/mixed; boundary=batch_ * @param body Initial data * @param options The options parameters. */ submitBatch(contentLength, multipartContentType, body, options) { const operationArguments = { contentLength, multipartContentType, body, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, submitBatchOperationSpec); } /** * The Filter Blobs operation enables callers to list blobs in a container whose tags match a given * search expression. Filter blobs searches within the given container. * @param options The options parameters. */ filterBlobs(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, filterBlobsOperationSpec); } /** * [Update] establishes and manages a lock on a container for delete operations. The lock duration can * be 15 to 60 seconds, or can be infinite * @param options The options parameters. */ acquireLease(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, acquireLeaseOperationSpec$1); } /** * [Update] establishes and manages a lock on a container for delete operations. The lock duration can * be 15 to 60 seconds, or can be infinite * @param leaseId Specifies the current lease ID on the resource. * @param options The options parameters. */ releaseLease(leaseId, options) { const operationArguments = { leaseId, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, releaseLeaseOperationSpec$1); } /** * [Update] establishes and manages a lock on a container for delete operations. The lock duration can * be 15 to 60 seconds, or can be infinite * @param leaseId Specifies the current lease ID on the resource. * @param options The options parameters. */ renewLease(leaseId, options) { const operationArguments = { leaseId, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, renewLeaseOperationSpec$1); } /** * [Update] establishes and manages a lock on a container for delete operations. The lock duration can * be 15 to 60 seconds, or can be infinite * @param options The options parameters. */ breakLease(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, breakLeaseOperationSpec$1); } /** * [Update] establishes and manages a lock on a container for delete operations. The lock duration can * be 15 to 60 seconds, or can be infinite * @param leaseId Specifies the current lease ID on the resource. * @param proposedLeaseId Proposed lease ID, in a GUID string format. The Blob service returns 400 * (Invalid request) if the proposed lease ID is not in the correct format. See Guid Constructor * (String) for a list of valid GUID string formats. * @param options The options parameters. */ changeLease(leaseId, proposedLeaseId, options) { const operationArguments = { leaseId, proposedLeaseId, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, changeLeaseOperationSpec$1); } /** * [Update] The List Blobs operation returns a list of the blobs under the specified container * @param options The options parameters. */ listBlobFlatSegment(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, listBlobFlatSegmentOperationSpec); } /** * [Update] The List Blobs operation returns a list of the blobs under the specified container * @param delimiter When the request includes this parameter, the operation returns a BlobPrefix * element in the response body that acts as a placeholder for all blobs whose names begin with the * same substring up to the appearance of the delimiter character. The delimiter may be a single * character or a string. * @param options The options parameters. */ listBlobHierarchySegment(delimiter, options) { const operationArguments = { delimiter, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, listBlobHierarchySegmentOperationSpec); } /** * Returns the sku name and account kind * @param options The options parameters. */ getAccountInfo(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, getAccountInfoOperationSpec$1); } } // Operation Specifications const xmlSerializer$4 = new coreHttp__namespace.Serializer(Mappers, /* isXml */ true); const createOperationSpec$2 = { path: "/{containerName}", httpMethod: "PUT", responses: { 201: { headersMapper: ContainerCreateHeaders }, default: { bodyMapper: StorageError, headersMapper: ContainerCreateExceptionHeaders } }, queryParameters: [timeoutInSeconds, restype2], urlParameters: [url], headerParameters: [ version, requestId, accept1, metadata, access, defaultEncryptionScope, preventEncryptionScopeOverride ], isXML: true, serializer: xmlSerializer$4 }; const getPropertiesOperationSpec$1 = { path: "/{containerName}", httpMethod: "GET", responses: { 200: { headersMapper: ContainerGetPropertiesHeaders }, default: { bodyMapper: StorageError, headersMapper: ContainerGetPropertiesExceptionHeaders } }, queryParameters: [timeoutInSeconds, restype2], urlParameters: [url], headerParameters: [ version, requestId, accept1, leaseId ], isXML: true, serializer: xmlSerializer$4 }; const deleteOperationSpec$1 = { path: "/{containerName}", httpMethod: "DELETE", responses: { 202: { headersMapper: ContainerDeleteHeaders }, default: { bodyMapper: StorageError, headersMapper: ContainerDeleteExceptionHeaders } }, queryParameters: [timeoutInSeconds, restype2], urlParameters: [url], headerParameters: [ version, requestId, accept1, leaseId, ifModifiedSince, ifUnmodifiedSince ], isXML: true, serializer: xmlSerializer$4 }; const setMetadataOperationSpec$1 = { path: "/{containerName}", httpMethod: "PUT", responses: { 200: { headersMapper: ContainerSetMetadataHeaders }, default: { bodyMapper: StorageError, headersMapper: ContainerSetMetadataExceptionHeaders } }, queryParameters: [ timeoutInSeconds, restype2, comp6 ], urlParameters: [url], headerParameters: [ version, requestId, accept1, metadata, leaseId, ifModifiedSince ], isXML: true, serializer: xmlSerializer$4 }; const getAccessPolicyOperationSpec = { path: "/{containerName}", httpMethod: "GET", responses: { 200: { bodyMapper: { type: { name: "Sequence", element: { type: { name: "Composite", className: "SignedIdentifier" } } }, serializedName: "SignedIdentifiers", xmlName: "SignedIdentifiers", xmlIsWrapped: true, xmlElementName: "SignedIdentifier" }, headersMapper: ContainerGetAccessPolicyHeaders }, default: { bodyMapper: StorageError, headersMapper: ContainerGetAccessPolicyExceptionHeaders } }, queryParameters: [ timeoutInSeconds, restype2, comp7 ], urlParameters: [url], headerParameters: [ version, requestId, accept1, leaseId ], isXML: true, serializer: xmlSerializer$4 }; const setAccessPolicyOperationSpec = { path: "/{containerName}", httpMethod: "PUT", responses: { 200: { headersMapper: ContainerSetAccessPolicyHeaders }, default: { bodyMapper: StorageError, headersMapper: ContainerSetAccessPolicyExceptionHeaders } }, requestBody: containerAcl, queryParameters: [ timeoutInSeconds, restype2, comp7 ], urlParameters: [url], headerParameters: [ contentType, accept, version, requestId, access, leaseId, ifModifiedSince, ifUnmodifiedSince ], isXML: true, contentType: "application/xml; charset=utf-8", mediaType: "xml", serializer: xmlSerializer$4 }; const restoreOperationSpec = { path: "/{containerName}", httpMethod: "PUT", responses: { 201: { headersMapper: ContainerRestoreHeaders }, default: { bodyMapper: StorageError, headersMapper: ContainerRestoreExceptionHeaders } }, queryParameters: [ timeoutInSeconds, restype2, comp8 ], urlParameters: [url], headerParameters: [ version, requestId, accept1, deletedContainerName, deletedContainerVersion ], isXML: true, serializer: xmlSerializer$4 }; const renameOperationSpec = { path: "/{containerName}", httpMethod: "PUT", responses: { 200: { headersMapper: ContainerRenameHeaders }, default: { bodyMapper: StorageError, headersMapper: ContainerRenameExceptionHeaders } }, queryParameters: [ timeoutInSeconds, restype2, comp9 ], urlParameters: [url], headerParameters: [ version, requestId, accept1, sourceContainerName, sourceLeaseId ], isXML: true, serializer: xmlSerializer$4 }; const submitBatchOperationSpec = { path: "/{containerName}", httpMethod: "POST", responses: { 202: { bodyMapper: { type: { name: "Stream" }, serializedName: "parsedResponse" }, headersMapper: ContainerSubmitBatchHeaders }, default: { bodyMapper: StorageError, headersMapper: ContainerSubmitBatchExceptionHeaders } }, requestBody: body, queryParameters: [ timeoutInSeconds, comp4, restype2 ], urlParameters: [url], headerParameters: [ contentType, accept, version, requestId, contentLength, multipartContentType ], isXML: true, contentType: "application/xml; charset=utf-8", mediaType: "xml", serializer: xmlSerializer$4 }; const filterBlobsOperationSpec = { path: "/{containerName}", httpMethod: "GET", responses: { 200: { bodyMapper: FilterBlobSegment, headersMapper: ContainerFilterBlobsHeaders }, default: { bodyMapper: StorageError, headersMapper: ContainerFilterBlobsExceptionHeaders } }, queryParameters: [ timeoutInSeconds, marker, maxPageSize, comp5, where, restype2 ], urlParameters: [url], headerParameters: [ version, requestId, accept1 ], isXML: true, serializer: xmlSerializer$4 }; const acquireLeaseOperationSpec$1 = { path: "/{containerName}", httpMethod: "PUT", responses: { 201: { headersMapper: ContainerAcquireLeaseHeaders }, default: { bodyMapper: StorageError, headersMapper: ContainerAcquireLeaseExceptionHeaders } }, queryParameters: [ timeoutInSeconds, restype2, comp10 ], urlParameters: [url], headerParameters: [ version, requestId, accept1, ifModifiedSince, ifUnmodifiedSince, action, duration, proposedLeaseId ], isXML: true, serializer: xmlSerializer$4 }; const releaseLeaseOperationSpec$1 = { path: "/{containerName}", httpMethod: "PUT", responses: { 200: { headersMapper: ContainerReleaseLeaseHeaders }, default: { bodyMapper: StorageError, headersMapper: ContainerReleaseLeaseExceptionHeaders } }, queryParameters: [ timeoutInSeconds, restype2, comp10 ], urlParameters: [url], headerParameters: [ version, requestId, accept1, ifModifiedSince, ifUnmodifiedSince, action1, leaseId1 ], isXML: true, serializer: xmlSerializer$4 }; const renewLeaseOperationSpec$1 = { path: "/{containerName}", httpMethod: "PUT", responses: { 200: { headersMapper: ContainerRenewLeaseHeaders }, default: { bodyMapper: StorageError, headersMapper: ContainerRenewLeaseExceptionHeaders } }, queryParameters: [ timeoutInSeconds, restype2, comp10 ], urlParameters: [url], headerParameters: [ version, requestId, accept1, ifModifiedSince, ifUnmodifiedSince, leaseId1, action2 ], isXML: true, serializer: xmlSerializer$4 }; const breakLeaseOperationSpec$1 = { path: "/{containerName}", httpMethod: "PUT", responses: { 202: { headersMapper: ContainerBreakLeaseHeaders }, default: { bodyMapper: StorageError, headersMapper: ContainerBreakLeaseExceptionHeaders } }, queryParameters: [ timeoutInSeconds, restype2, comp10 ], urlParameters: [url], headerParameters: [ version, requestId, accept1, ifModifiedSince, ifUnmodifiedSince, action3, breakPeriod ], isXML: true, serializer: xmlSerializer$4 }; const changeLeaseOperationSpec$1 = { path: "/{containerName}", httpMethod: "PUT", responses: { 200: { headersMapper: ContainerChangeLeaseHeaders }, default: { bodyMapper: StorageError, headersMapper: ContainerChangeLeaseExceptionHeaders } }, queryParameters: [ timeoutInSeconds, restype2, comp10 ], urlParameters: [url], headerParameters: [ version, requestId, accept1, ifModifiedSince, ifUnmodifiedSince, leaseId1, action4, proposedLeaseId1 ], isXML: true, serializer: xmlSerializer$4 }; const listBlobFlatSegmentOperationSpec = { path: "/{containerName}", httpMethod: "GET", responses: { 200: { bodyMapper: ListBlobsFlatSegmentResponse, headersMapper: ContainerListBlobFlatSegmentHeaders }, default: { bodyMapper: StorageError, headersMapper: ContainerListBlobFlatSegmentExceptionHeaders } }, queryParameters: [ timeoutInSeconds, comp2, prefix, marker, maxPageSize, restype2, include1 ], urlParameters: [url], headerParameters: [ version, requestId, accept1 ], isXML: true, serializer: xmlSerializer$4 }; const listBlobHierarchySegmentOperationSpec = { path: "/{containerName}", httpMethod: "GET", responses: { 200: { bodyMapper: ListBlobsHierarchySegmentResponse, headersMapper: ContainerListBlobHierarchySegmentHeaders }, default: { bodyMapper: StorageError, headersMapper: ContainerListBlobHierarchySegmentExceptionHeaders } }, queryParameters: [ timeoutInSeconds, comp2, prefix, marker, maxPageSize, restype2, include1, delimiter ], urlParameters: [url], headerParameters: [ version, requestId, accept1 ], isXML: true, serializer: xmlSerializer$4 }; const getAccountInfoOperationSpec$1 = { path: "/{containerName}", httpMethod: "GET", responses: { 200: { headersMapper: ContainerGetAccountInfoHeaders }, default: { bodyMapper: StorageError, headersMapper: ContainerGetAccountInfoExceptionHeaders } }, queryParameters: [comp, restype1], urlParameters: [url], headerParameters: [version, accept1], isXML: true, serializer: xmlSerializer$4 }; /* * Copyright (c) Microsoft Corporation. * Licensed under the MIT License. * * Code generated by Microsoft (R) AutoRest Code Generator. * Changes may cause incorrect behavior and will be lost if the code is regenerated. */ /** Class representing a Blob. */ class Blob$1 { /** * Initialize a new instance of the class Blob class. * @param client Reference to the service client */ constructor(client) { this.client = client; } /** * The Download operation reads or downloads a blob from the system, including its metadata and * properties. You can also call Download to read a snapshot. * @param options The options parameters. */ download(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, downloadOperationSpec); } /** * The Get Properties operation returns all user-defined metadata, standard HTTP properties, and system * properties for the blob. It does not return the content of the blob. * @param options The options parameters. */ getProperties(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, getPropertiesOperationSpec); } /** * If the storage account's soft delete feature is disabled then, when a blob is deleted, it is * permanently removed from the storage account. If the storage account's soft delete feature is * enabled, then, when a blob is deleted, it is marked for deletion and becomes inaccessible * immediately. However, the blob service retains the blob or snapshot for the number of days specified * by the DeleteRetentionPolicy section of [Storage service properties] * (Set-Blob-Service-Properties.md). After the specified number of days has passed, the blob's data is * permanently removed from the storage account. Note that you continue to be charged for the * soft-deleted blob's storage until it is permanently removed. Use the List Blobs API and specify the * "include=deleted" query parameter to discover which blobs and snapshots have been soft deleted. You * can then use the Undelete Blob API to restore a soft-deleted blob. All other operations on a * soft-deleted blob or snapshot causes the service to return an HTTP status code of 404 * (ResourceNotFound). * @param options The options parameters. */ delete(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, deleteOperationSpec); } /** * Undelete a blob that was previously soft deleted * @param options The options parameters. */ undelete(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, undeleteOperationSpec); } /** * Sets the time a blob will expire and be deleted. * @param expiryOptions Required. Indicates mode of the expiry time * @param options The options parameters. */ setExpiry(expiryOptions, options) { const operationArguments = { expiryOptions, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, setExpiryOperationSpec); } /** * The Set HTTP Headers operation sets system properties on the blob * @param options The options parameters. */ setHttpHeaders(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, setHttpHeadersOperationSpec); } /** * The Set Immutability Policy operation sets the immutability policy on the blob * @param options The options parameters. */ setImmutabilityPolicy(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, setImmutabilityPolicyOperationSpec); } /** * The Delete Immutability Policy operation deletes the immutability policy on the blob * @param options The options parameters. */ deleteImmutabilityPolicy(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, deleteImmutabilityPolicyOperationSpec); } /** * The Set Legal Hold operation sets a legal hold on the blob. * @param legalHold Specified if a legal hold should be set on the blob. * @param options The options parameters. */ setLegalHold(legalHold, options) { const operationArguments = { legalHold, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, setLegalHoldOperationSpec); } /** * The Set Blob Metadata operation sets user-defined metadata for the specified blob as one or more * name-value pairs * @param options The options parameters. */ setMetadata(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, setMetadataOperationSpec); } /** * [Update] The Lease Blob operation establishes and manages a lock on a blob for write and delete * operations * @param options The options parameters. */ acquireLease(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, acquireLeaseOperationSpec); } /** * [Update] The Lease Blob operation establishes and manages a lock on a blob for write and delete * operations * @param leaseId Specifies the current lease ID on the resource. * @param options The options parameters. */ releaseLease(leaseId, options) { const operationArguments = { leaseId, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, releaseLeaseOperationSpec); } /** * [Update] The Lease Blob operation establishes and manages a lock on a blob for write and delete * operations * @param leaseId Specifies the current lease ID on the resource. * @param options The options parameters. */ renewLease(leaseId, options) { const operationArguments = { leaseId, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, renewLeaseOperationSpec); } /** * [Update] The Lease Blob operation establishes and manages a lock on a blob for write and delete * operations * @param leaseId Specifies the current lease ID on the resource. * @param proposedLeaseId Proposed lease ID, in a GUID string format. The Blob service returns 400 * (Invalid request) if the proposed lease ID is not in the correct format. See Guid Constructor * (String) for a list of valid GUID string formats. * @param options The options parameters. */ changeLease(leaseId, proposedLeaseId, options) { const operationArguments = { leaseId, proposedLeaseId, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, changeLeaseOperationSpec); } /** * [Update] The Lease Blob operation establishes and manages a lock on a blob for write and delete * operations * @param options The options parameters. */ breakLease(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, breakLeaseOperationSpec); } /** * The Create Snapshot operation creates a read-only snapshot of a blob * @param options The options parameters. */ createSnapshot(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, createSnapshotOperationSpec); } /** * The Start Copy From URL operation copies a blob or an internet resource to a new blob. * @param copySource Specifies the name of the source page blob snapshot. This value is a URL of up to * 2 KB in length that specifies a page blob snapshot. The value should be URL-encoded as it would * appear in a request URI. The source blob must either be public or must be authenticated via a shared * access signature. * @param options The options parameters. */ startCopyFromURL(copySource, options) { const operationArguments = { copySource, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, startCopyFromURLOperationSpec); } /** * The Copy From URL operation copies a blob or an internet resource to a new blob. It will not return * a response until the copy is complete. * @param copySource Specifies the name of the source page blob snapshot. This value is a URL of up to * 2 KB in length that specifies a page blob snapshot. The value should be URL-encoded as it would * appear in a request URI. The source blob must either be public or must be authenticated via a shared * access signature. * @param options The options parameters. */ copyFromURL(copySource, options) { const operationArguments = { copySource, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, copyFromURLOperationSpec); } /** * The Abort Copy From URL operation aborts a pending Copy From URL operation, and leaves a destination * blob with zero length and full metadata. * @param copyId The copy identifier provided in the x-ms-copy-id header of the original Copy Blob * operation. * @param options The options parameters. */ abortCopyFromURL(copyId, options) { const operationArguments = { copyId, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, abortCopyFromURLOperationSpec); } /** * The Set Tier operation sets the tier on a blob. The operation is allowed on a page blob in a premium * storage account and on a block blob in a blob storage account (locally redundant storage only). A * premium page blob's tier determines the allowed size, IOPS, and bandwidth of the blob. A block * blob's tier determines Hot/Cool/Archive storage type. This operation does not update the blob's * ETag. * @param tier Indicates the tier to be set on the blob. * @param options The options parameters. */ setTier(tier, options) { const operationArguments = { tier, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, setTierOperationSpec); } /** * Returns the sku name and account kind * @param options The options parameters. */ getAccountInfo(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, getAccountInfoOperationSpec); } /** * The Query operation enables users to select/project on blob data by providing simple query * expressions. * @param options The options parameters. */ query(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, queryOperationSpec); } /** * The Get Tags operation enables users to get the tags associated with a blob. * @param options The options parameters. */ getTags(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, getTagsOperationSpec); } /** * The Set Tags operation enables users to set tags on a blob. * @param options The options parameters. */ setTags(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, setTagsOperationSpec); } } // Operation Specifications const xmlSerializer$3 = new coreHttp__namespace.Serializer(Mappers, /* isXml */ true); const downloadOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "GET", responses: { 200: { bodyMapper: { type: { name: "Stream" }, serializedName: "parsedResponse" }, headersMapper: BlobDownloadHeaders }, 206: { bodyMapper: { type: { name: "Stream" }, serializedName: "parsedResponse" }, headersMapper: BlobDownloadHeaders }, default: { bodyMapper: StorageError, headersMapper: BlobDownloadExceptionHeaders } }, queryParameters: [ timeoutInSeconds, snapshot, versionId ], urlParameters: [url], headerParameters: [ version, requestId, accept1, leaseId, ifModifiedSince, ifUnmodifiedSince, range, rangeGetContentMD5, rangeGetContentCRC64, encryptionKey, encryptionKeySha256, encryptionAlgorithm, ifMatch, ifNoneMatch, ifTags ], isXML: true, serializer: xmlSerializer$3 }; const getPropertiesOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "HEAD", responses: { 200: { headersMapper: BlobGetPropertiesHeaders }, default: { bodyMapper: StorageError, headersMapper: BlobGetPropertiesExceptionHeaders } }, queryParameters: [ timeoutInSeconds, snapshot, versionId ], urlParameters: [url], headerParameters: [ version, requestId, accept1, leaseId, ifModifiedSince, ifUnmodifiedSince, encryptionKey, encryptionKeySha256, encryptionAlgorithm, ifMatch, ifNoneMatch, ifTags ], isXML: true, serializer: xmlSerializer$3 }; const deleteOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "DELETE", responses: { 202: { headersMapper: BlobDeleteHeaders }, default: { bodyMapper: StorageError, headersMapper: BlobDeleteExceptionHeaders } }, queryParameters: [ timeoutInSeconds, snapshot, versionId, blobDeleteType ], urlParameters: [url], headerParameters: [ version, requestId, accept1, leaseId, ifModifiedSince, ifUnmodifiedSince, ifMatch, ifNoneMatch, ifTags, deleteSnapshots ], isXML: true, serializer: xmlSerializer$3 }; const undeleteOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 200: { headersMapper: BlobUndeleteHeaders }, default: { bodyMapper: StorageError, headersMapper: BlobUndeleteExceptionHeaders } }, queryParameters: [timeoutInSeconds, comp8], urlParameters: [url], headerParameters: [ version, requestId, accept1 ], isXML: true, serializer: xmlSerializer$3 }; const setExpiryOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 200: { headersMapper: BlobSetExpiryHeaders }, default: { bodyMapper: StorageError, headersMapper: BlobSetExpiryExceptionHeaders } }, queryParameters: [timeoutInSeconds, comp11], urlParameters: [url], headerParameters: [ version, requestId, accept1, expiryOptions, expiresOn ], isXML: true, serializer: xmlSerializer$3 }; const setHttpHeadersOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 200: { headersMapper: BlobSetHttpHeadersHeaders }, default: { bodyMapper: StorageError, headersMapper: BlobSetHttpHeadersExceptionHeaders } }, queryParameters: [comp, timeoutInSeconds], urlParameters: [url], headerParameters: [ version, requestId, accept1, leaseId, ifModifiedSince, ifUnmodifiedSince, ifMatch, ifNoneMatch, ifTags, blobCacheControl, blobContentType, blobContentMD5, blobContentEncoding, blobContentLanguage, blobContentDisposition ], isXML: true, serializer: xmlSerializer$3 }; const setImmutabilityPolicyOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 200: { headersMapper: BlobSetImmutabilityPolicyHeaders }, default: { bodyMapper: StorageError, headersMapper: BlobSetImmutabilityPolicyExceptionHeaders } }, queryParameters: [timeoutInSeconds, comp12], urlParameters: [url], headerParameters: [ version, requestId, accept1, ifUnmodifiedSince, immutabilityPolicyExpiry, immutabilityPolicyMode ], isXML: true, serializer: xmlSerializer$3 }; const deleteImmutabilityPolicyOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "DELETE", responses: { 200: { headersMapper: BlobDeleteImmutabilityPolicyHeaders }, default: { bodyMapper: StorageError, headersMapper: BlobDeleteImmutabilityPolicyExceptionHeaders } }, queryParameters: [timeoutInSeconds, comp12], urlParameters: [url], headerParameters: [ version, requestId, accept1 ], isXML: true, serializer: xmlSerializer$3 }; const setLegalHoldOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 200: { headersMapper: BlobSetLegalHoldHeaders }, default: { bodyMapper: StorageError, headersMapper: BlobSetLegalHoldExceptionHeaders } }, queryParameters: [timeoutInSeconds, comp13], urlParameters: [url], headerParameters: [ version, requestId, accept1, legalHold ], isXML: true, serializer: xmlSerializer$3 }; const setMetadataOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 200: { headersMapper: BlobSetMetadataHeaders }, default: { bodyMapper: StorageError, headersMapper: BlobSetMetadataExceptionHeaders } }, queryParameters: [timeoutInSeconds, comp6], urlParameters: [url], headerParameters: [ version, requestId, accept1, metadata, leaseId, ifModifiedSince, ifUnmodifiedSince, encryptionKey, encryptionKeySha256, encryptionAlgorithm, ifMatch, ifNoneMatch, ifTags, encryptionScope ], isXML: true, serializer: xmlSerializer$3 }; const acquireLeaseOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 201: { headersMapper: BlobAcquireLeaseHeaders }, default: { bodyMapper: StorageError, headersMapper: BlobAcquireLeaseExceptionHeaders } }, queryParameters: [timeoutInSeconds, comp10], urlParameters: [url], headerParameters: [ version, requestId, accept1, ifModifiedSince, ifUnmodifiedSince, action, duration, proposedLeaseId, ifMatch, ifNoneMatch, ifTags ], isXML: true, serializer: xmlSerializer$3 }; const releaseLeaseOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 200: { headersMapper: BlobReleaseLeaseHeaders }, default: { bodyMapper: StorageError, headersMapper: BlobReleaseLeaseExceptionHeaders } }, queryParameters: [timeoutInSeconds, comp10], urlParameters: [url], headerParameters: [ version, requestId, accept1, ifModifiedSince, ifUnmodifiedSince, action1, leaseId1, ifMatch, ifNoneMatch, ifTags ], isXML: true, serializer: xmlSerializer$3 }; const renewLeaseOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 200: { headersMapper: BlobRenewLeaseHeaders }, default: { bodyMapper: StorageError, headersMapper: BlobRenewLeaseExceptionHeaders } }, queryParameters: [timeoutInSeconds, comp10], urlParameters: [url], headerParameters: [ version, requestId, accept1, ifModifiedSince, ifUnmodifiedSince, leaseId1, action2, ifMatch, ifNoneMatch, ifTags ], isXML: true, serializer: xmlSerializer$3 }; const changeLeaseOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 200: { headersMapper: BlobChangeLeaseHeaders }, default: { bodyMapper: StorageError, headersMapper: BlobChangeLeaseExceptionHeaders } }, queryParameters: [timeoutInSeconds, comp10], urlParameters: [url], headerParameters: [ version, requestId, accept1, ifModifiedSince, ifUnmodifiedSince, leaseId1, action4, proposedLeaseId1, ifMatch, ifNoneMatch, ifTags ], isXML: true, serializer: xmlSerializer$3 }; const breakLeaseOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 202: { headersMapper: BlobBreakLeaseHeaders }, default: { bodyMapper: StorageError, headersMapper: BlobBreakLeaseExceptionHeaders } }, queryParameters: [timeoutInSeconds, comp10], urlParameters: [url], headerParameters: [ version, requestId, accept1, ifModifiedSince, ifUnmodifiedSince, action3, breakPeriod, ifMatch, ifNoneMatch, ifTags ], isXML: true, serializer: xmlSerializer$3 }; const createSnapshotOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 201: { headersMapper: BlobCreateSnapshotHeaders }, default: { bodyMapper: StorageError, headersMapper: BlobCreateSnapshotExceptionHeaders } }, queryParameters: [timeoutInSeconds, comp14], urlParameters: [url], headerParameters: [ version, requestId, accept1, metadata, leaseId, ifModifiedSince, ifUnmodifiedSince, encryptionKey, encryptionKeySha256, encryptionAlgorithm, ifMatch, ifNoneMatch, ifTags, encryptionScope ], isXML: true, serializer: xmlSerializer$3 }; const startCopyFromURLOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 202: { headersMapper: BlobStartCopyFromURLHeaders }, default: { bodyMapper: StorageError, headersMapper: BlobStartCopyFromURLExceptionHeaders } }, queryParameters: [timeoutInSeconds], urlParameters: [url], headerParameters: [ version, requestId, accept1, metadata, leaseId, ifModifiedSince, ifUnmodifiedSince, ifMatch, ifNoneMatch, ifTags, immutabilityPolicyExpiry, immutabilityPolicyMode, tier, rehydratePriority, sourceIfModifiedSince, sourceIfUnmodifiedSince, sourceIfMatch, sourceIfNoneMatch, sourceIfTags, copySource, blobTagsString, sealBlob, legalHold1 ], isXML: true, serializer: xmlSerializer$3 }; const copyFromURLOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 202: { headersMapper: BlobCopyFromURLHeaders }, default: { bodyMapper: StorageError, headersMapper: BlobCopyFromURLExceptionHeaders } }, queryParameters: [timeoutInSeconds], urlParameters: [url], headerParameters: [ version, requestId, accept1, metadata, leaseId, ifModifiedSince, ifUnmodifiedSince, ifMatch, ifNoneMatch, ifTags, immutabilityPolicyExpiry, immutabilityPolicyMode, encryptionScope, tier, sourceIfModifiedSince, sourceIfUnmodifiedSince, sourceIfMatch, sourceIfNoneMatch, copySource, blobTagsString, legalHold1, xMsRequiresSync, sourceContentMD5, copySourceAuthorization, copySourceTags ], isXML: true, serializer: xmlSerializer$3 }; const abortCopyFromURLOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 204: { headersMapper: BlobAbortCopyFromURLHeaders }, default: { bodyMapper: StorageError, headersMapper: BlobAbortCopyFromURLExceptionHeaders } }, queryParameters: [ timeoutInSeconds, comp15, copyId ], urlParameters: [url], headerParameters: [ version, requestId, accept1, leaseId, copyActionAbortConstant ], isXML: true, serializer: xmlSerializer$3 }; const setTierOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 200: { headersMapper: BlobSetTierHeaders }, 202: { headersMapper: BlobSetTierHeaders }, default: { bodyMapper: StorageError, headersMapper: BlobSetTierExceptionHeaders } }, queryParameters: [ timeoutInSeconds, snapshot, versionId, comp16 ], urlParameters: [url], headerParameters: [ version, requestId, accept1, leaseId, ifTags, rehydratePriority, tier1 ], isXML: true, serializer: xmlSerializer$3 }; const getAccountInfoOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "GET", responses: { 200: { headersMapper: BlobGetAccountInfoHeaders }, default: { bodyMapper: StorageError, headersMapper: BlobGetAccountInfoExceptionHeaders } }, queryParameters: [comp, restype1], urlParameters: [url], headerParameters: [version, accept1], isXML: true, serializer: xmlSerializer$3 }; const queryOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "POST", responses: { 200: { bodyMapper: { type: { name: "Stream" }, serializedName: "parsedResponse" }, headersMapper: BlobQueryHeaders }, 206: { bodyMapper: { type: { name: "Stream" }, serializedName: "parsedResponse" }, headersMapper: BlobQueryHeaders }, default: { bodyMapper: StorageError, headersMapper: BlobQueryExceptionHeaders } }, requestBody: queryRequest, queryParameters: [ timeoutInSeconds, snapshot, comp17 ], urlParameters: [url], headerParameters: [ contentType, accept, version, requestId, leaseId, ifModifiedSince, ifUnmodifiedSince, encryptionKey, encryptionKeySha256, encryptionAlgorithm, ifMatch, ifNoneMatch, ifTags ], isXML: true, contentType: "application/xml; charset=utf-8", mediaType: "xml", serializer: xmlSerializer$3 }; const getTagsOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "GET", responses: { 200: { bodyMapper: BlobTags, headersMapper: BlobGetTagsHeaders }, default: { bodyMapper: StorageError, headersMapper: BlobGetTagsExceptionHeaders } }, queryParameters: [ timeoutInSeconds, snapshot, versionId, comp18 ], urlParameters: [url], headerParameters: [ version, requestId, accept1, leaseId, ifTags ], isXML: true, serializer: xmlSerializer$3 }; const setTagsOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 204: { headersMapper: BlobSetTagsHeaders }, default: { bodyMapper: StorageError, headersMapper: BlobSetTagsExceptionHeaders } }, requestBody: tags, queryParameters: [ timeoutInSeconds, versionId, comp18 ], urlParameters: [url], headerParameters: [ contentType, accept, version, requestId, leaseId, ifTags, transactionalContentMD5, transactionalContentCrc64 ], isXML: true, contentType: "application/xml; charset=utf-8", mediaType: "xml", serializer: xmlSerializer$3 }; /* * Copyright (c) Microsoft Corporation. * Licensed under the MIT License. * * Code generated by Microsoft (R) AutoRest Code Generator. * Changes may cause incorrect behavior and will be lost if the code is regenerated. */ /** Class representing a PageBlob. */ class PageBlob { /** * Initialize a new instance of the class PageBlob class. * @param client Reference to the service client */ constructor(client) { this.client = client; } /** * The Create operation creates a new page blob. * @param contentLength The length of the request. * @param blobContentLength This header specifies the maximum size for the page blob, up to 1 TB. The * page blob size must be aligned to a 512-byte boundary. * @param options The options parameters. */ create(contentLength, blobContentLength, options) { const operationArguments = { contentLength, blobContentLength, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, createOperationSpec$1); } /** * The Upload Pages operation writes a range of pages to a page blob * @param contentLength The length of the request. * @param body Initial data * @param options The options parameters. */ uploadPages(contentLength, body, options) { const operationArguments = { contentLength, body, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, uploadPagesOperationSpec); } /** * The Clear Pages operation clears a set of pages from a page blob * @param contentLength The length of the request. * @param options The options parameters. */ clearPages(contentLength, options) { const operationArguments = { contentLength, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, clearPagesOperationSpec); } /** * The Upload Pages operation writes a range of pages to a page blob where the contents are read from a * URL * @param sourceUrl Specify a URL to the copy source. * @param sourceRange Bytes of source data in the specified range. The length of this range should * match the ContentLength header and x-ms-range/Range destination range header. * @param contentLength The length of the request. * @param range The range of bytes to which the source range would be written. The range should be 512 * aligned and range-end is required. * @param options The options parameters. */ uploadPagesFromURL(sourceUrl, sourceRange, contentLength, range, options) { const operationArguments = { sourceUrl, sourceRange, contentLength, range, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, uploadPagesFromURLOperationSpec); } /** * The Get Page Ranges operation returns the list of valid page ranges for a page blob or snapshot of a * page blob * @param options The options parameters. */ getPageRanges(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, getPageRangesOperationSpec); } /** * The Get Page Ranges Diff operation returns the list of valid page ranges for a page blob that were * changed between target blob and previous snapshot. * @param options The options parameters. */ getPageRangesDiff(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, getPageRangesDiffOperationSpec); } /** * Resize the Blob * @param blobContentLength This header specifies the maximum size for the page blob, up to 1 TB. The * page blob size must be aligned to a 512-byte boundary. * @param options The options parameters. */ resize(blobContentLength, options) { const operationArguments = { blobContentLength, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, resizeOperationSpec); } /** * Update the sequence number of the blob * @param sequenceNumberAction Required if the x-ms-blob-sequence-number header is set for the request. * This property applies to page blobs only. This property indicates how the service should modify the * blob's sequence number * @param options The options parameters. */ updateSequenceNumber(sequenceNumberAction, options) { const operationArguments = { sequenceNumberAction, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, updateSequenceNumberOperationSpec); } /** * The Copy Incremental operation copies a snapshot of the source page blob to a destination page blob. * The snapshot is copied such that only the differential changes between the previously copied * snapshot are transferred to the destination. The copied snapshots are complete copies of the * original snapshot and can be read or copied from as usual. This API is supported since REST version * 2016-05-31. * @param copySource Specifies the name of the source page blob snapshot. This value is a URL of up to * 2 KB in length that specifies a page blob snapshot. The value should be URL-encoded as it would * appear in a request URI. The source blob must either be public or must be authenticated via a shared * access signature. * @param options The options parameters. */ copyIncremental(copySource, options) { const operationArguments = { copySource, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, copyIncrementalOperationSpec); } } // Operation Specifications const xmlSerializer$2 = new coreHttp__namespace.Serializer(Mappers, /* isXml */ true); const serializer$2 = new coreHttp__namespace.Serializer(Mappers, /* isXml */ false); const createOperationSpec$1 = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 201: { headersMapper: PageBlobCreateHeaders }, default: { bodyMapper: StorageError, headersMapper: PageBlobCreateExceptionHeaders } }, queryParameters: [timeoutInSeconds], urlParameters: [url], headerParameters: [ version, requestId, accept1, contentLength, metadata, leaseId, ifModifiedSince, ifUnmodifiedSince, encryptionKey, encryptionKeySha256, encryptionAlgorithm, ifMatch, ifNoneMatch, ifTags, blobCacheControl, blobContentType, blobContentMD5, blobContentEncoding, blobContentLanguage, blobContentDisposition, immutabilityPolicyExpiry, immutabilityPolicyMode, encryptionScope, tier, blobTagsString, legalHold1, blobType, blobContentLength, blobSequenceNumber ], isXML: true, serializer: xmlSerializer$2 }; const uploadPagesOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 201: { headersMapper: PageBlobUploadPagesHeaders }, default: { bodyMapper: StorageError, headersMapper: PageBlobUploadPagesExceptionHeaders } }, requestBody: body1, queryParameters: [timeoutInSeconds, comp19], urlParameters: [url], headerParameters: [ version, requestId, contentLength, leaseId, ifModifiedSince, ifUnmodifiedSince, range, encryptionKey, encryptionKeySha256, encryptionAlgorithm, ifMatch, ifNoneMatch, ifTags, encryptionScope, transactionalContentMD5, transactionalContentCrc64, contentType1, accept2, pageWrite, ifSequenceNumberLessThanOrEqualTo, ifSequenceNumberLessThan, ifSequenceNumberEqualTo ], mediaType: "binary", serializer: serializer$2 }; const clearPagesOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 201: { headersMapper: PageBlobClearPagesHeaders }, default: { bodyMapper: StorageError, headersMapper: PageBlobClearPagesExceptionHeaders } }, queryParameters: [timeoutInSeconds, comp19], urlParameters: [url], headerParameters: [ version, requestId, accept1, contentLength, leaseId, ifModifiedSince, ifUnmodifiedSince, range, encryptionKey, encryptionKeySha256, encryptionAlgorithm, ifMatch, ifNoneMatch, ifTags, encryptionScope, ifSequenceNumberLessThanOrEqualTo, ifSequenceNumberLessThan, ifSequenceNumberEqualTo, pageWrite1 ], isXML: true, serializer: xmlSerializer$2 }; const uploadPagesFromURLOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 201: { headersMapper: PageBlobUploadPagesFromURLHeaders }, default: { bodyMapper: StorageError, headersMapper: PageBlobUploadPagesFromURLExceptionHeaders } }, queryParameters: [timeoutInSeconds, comp19], urlParameters: [url], headerParameters: [ version, requestId, accept1, contentLength, leaseId, ifModifiedSince, ifUnmodifiedSince, encryptionKey, encryptionKeySha256, encryptionAlgorithm, ifMatch, ifNoneMatch, ifTags, encryptionScope, sourceIfModifiedSince, sourceIfUnmodifiedSince, sourceIfMatch, sourceIfNoneMatch, sourceContentMD5, copySourceAuthorization, pageWrite, ifSequenceNumberLessThanOrEqualTo, ifSequenceNumberLessThan, ifSequenceNumberEqualTo, sourceUrl, sourceRange, sourceContentCrc64, range1 ], isXML: true, serializer: xmlSerializer$2 }; const getPageRangesOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "GET", responses: { 200: { bodyMapper: PageList, headersMapper: PageBlobGetPageRangesHeaders }, default: { bodyMapper: StorageError, headersMapper: PageBlobGetPageRangesExceptionHeaders } }, queryParameters: [ timeoutInSeconds, marker, maxPageSize, snapshot, comp20 ], urlParameters: [url], headerParameters: [ version, requestId, accept1, leaseId, ifModifiedSince, ifUnmodifiedSince, range, ifMatch, ifNoneMatch, ifTags ], isXML: true, serializer: xmlSerializer$2 }; const getPageRangesDiffOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "GET", responses: { 200: { bodyMapper: PageList, headersMapper: PageBlobGetPageRangesDiffHeaders }, default: { bodyMapper: StorageError, headersMapper: PageBlobGetPageRangesDiffExceptionHeaders } }, queryParameters: [ timeoutInSeconds, marker, maxPageSize, snapshot, comp20, prevsnapshot ], urlParameters: [url], headerParameters: [ version, requestId, accept1, leaseId, ifModifiedSince, ifUnmodifiedSince, range, ifMatch, ifNoneMatch, ifTags, prevSnapshotUrl ], isXML: true, serializer: xmlSerializer$2 }; const resizeOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 200: { headersMapper: PageBlobResizeHeaders }, default: { bodyMapper: StorageError, headersMapper: PageBlobResizeExceptionHeaders } }, queryParameters: [comp, timeoutInSeconds], urlParameters: [url], headerParameters: [ version, requestId, accept1, leaseId, ifModifiedSince, ifUnmodifiedSince, encryptionKey, encryptionKeySha256, encryptionAlgorithm, ifMatch, ifNoneMatch, ifTags, encryptionScope, blobContentLength ], isXML: true, serializer: xmlSerializer$2 }; const updateSequenceNumberOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 200: { headersMapper: PageBlobUpdateSequenceNumberHeaders }, default: { bodyMapper: StorageError, headersMapper: PageBlobUpdateSequenceNumberExceptionHeaders } }, queryParameters: [comp, timeoutInSeconds], urlParameters: [url], headerParameters: [ version, requestId, accept1, leaseId, ifModifiedSince, ifUnmodifiedSince, ifMatch, ifNoneMatch, ifTags, blobSequenceNumber, sequenceNumberAction ], isXML: true, serializer: xmlSerializer$2 }; const copyIncrementalOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 202: { headersMapper: PageBlobCopyIncrementalHeaders }, default: { bodyMapper: StorageError, headersMapper: PageBlobCopyIncrementalExceptionHeaders } }, queryParameters: [timeoutInSeconds, comp21], urlParameters: [url], headerParameters: [ version, requestId, accept1, ifModifiedSince, ifUnmodifiedSince, ifMatch, ifNoneMatch, ifTags, copySource ], isXML: true, serializer: xmlSerializer$2 }; /* * Copyright (c) Microsoft Corporation. * Licensed under the MIT License. * * Code generated by Microsoft (R) AutoRest Code Generator. * Changes may cause incorrect behavior and will be lost if the code is regenerated. */ /** Class representing a AppendBlob. */ class AppendBlob { /** * Initialize a new instance of the class AppendBlob class. * @param client Reference to the service client */ constructor(client) { this.client = client; } /** * The Create Append Blob operation creates a new append blob. * @param contentLength The length of the request. * @param options The options parameters. */ create(contentLength, options) { const operationArguments = { contentLength, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, createOperationSpec); } /** * The Append Block operation commits a new block of data to the end of an existing append blob. The * Append Block operation is permitted only if the blob was created with x-ms-blob-type set to * AppendBlob. Append Block is supported only on version 2015-02-21 version or later. * @param contentLength The length of the request. * @param body Initial data * @param options The options parameters. */ appendBlock(contentLength, body, options) { const operationArguments = { contentLength, body, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, appendBlockOperationSpec); } /** * The Append Block operation commits a new block of data to the end of an existing append blob where * the contents are read from a source url. The Append Block operation is permitted only if the blob * was created with x-ms-blob-type set to AppendBlob. Append Block is supported only on version * 2015-02-21 version or later. * @param sourceUrl Specify a URL to the copy source. * @param contentLength The length of the request. * @param options The options parameters. */ appendBlockFromUrl(sourceUrl, contentLength, options) { const operationArguments = { sourceUrl, contentLength, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, appendBlockFromUrlOperationSpec); } /** * The Seal operation seals the Append Blob to make it read-only. Seal is supported only on version * 2019-12-12 version or later. * @param options The options parameters. */ seal(options) { const operationArguments = { options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, sealOperationSpec); } } // Operation Specifications const xmlSerializer$1 = new coreHttp__namespace.Serializer(Mappers, /* isXml */ true); const serializer$1 = new coreHttp__namespace.Serializer(Mappers, /* isXml */ false); const createOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 201: { headersMapper: AppendBlobCreateHeaders }, default: { bodyMapper: StorageError, headersMapper: AppendBlobCreateExceptionHeaders } }, queryParameters: [timeoutInSeconds], urlParameters: [url], headerParameters: [ version, requestId, accept1, contentLength, metadata, leaseId, ifModifiedSince, ifUnmodifiedSince, encryptionKey, encryptionKeySha256, encryptionAlgorithm, ifMatch, ifNoneMatch, ifTags, blobCacheControl, blobContentType, blobContentMD5, blobContentEncoding, blobContentLanguage, blobContentDisposition, immutabilityPolicyExpiry, immutabilityPolicyMode, encryptionScope, blobTagsString, legalHold1, blobType1 ], isXML: true, serializer: xmlSerializer$1 }; const appendBlockOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 201: { headersMapper: AppendBlobAppendBlockHeaders }, default: { bodyMapper: StorageError, headersMapper: AppendBlobAppendBlockExceptionHeaders } }, requestBody: body1, queryParameters: [timeoutInSeconds, comp22], urlParameters: [url], headerParameters: [ version, requestId, contentLength, leaseId, ifModifiedSince, ifUnmodifiedSince, encryptionKey, encryptionKeySha256, encryptionAlgorithm, ifMatch, ifNoneMatch, ifTags, encryptionScope, transactionalContentMD5, transactionalContentCrc64, contentType1, accept2, maxSize, appendPosition ], mediaType: "binary", serializer: serializer$1 }; const appendBlockFromUrlOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 201: { headersMapper: AppendBlobAppendBlockFromUrlHeaders }, default: { bodyMapper: StorageError, headersMapper: AppendBlobAppendBlockFromUrlExceptionHeaders } }, queryParameters: [timeoutInSeconds, comp22], urlParameters: [url], headerParameters: [ version, requestId, accept1, contentLength, leaseId, ifModifiedSince, ifUnmodifiedSince, encryptionKey, encryptionKeySha256, encryptionAlgorithm, ifMatch, ifNoneMatch, ifTags, encryptionScope, sourceIfModifiedSince, sourceIfUnmodifiedSince, sourceIfMatch, sourceIfNoneMatch, sourceContentMD5, copySourceAuthorization, transactionalContentMD5, sourceUrl, sourceContentCrc64, maxSize, appendPosition, sourceRange1 ], isXML: true, serializer: xmlSerializer$1 }; const sealOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 200: { headersMapper: AppendBlobSealHeaders }, default: { bodyMapper: StorageError, headersMapper: AppendBlobSealExceptionHeaders } }, queryParameters: [timeoutInSeconds, comp23], urlParameters: [url], headerParameters: [ version, requestId, accept1, leaseId, ifModifiedSince, ifUnmodifiedSince, ifMatch, ifNoneMatch, appendPosition ], isXML: true, serializer: xmlSerializer$1 }; /* * Copyright (c) Microsoft Corporation. * Licensed under the MIT License. * * Code generated by Microsoft (R) AutoRest Code Generator. * Changes may cause incorrect behavior and will be lost if the code is regenerated. */ /** Class representing a BlockBlob. */ class BlockBlob { /** * Initialize a new instance of the class BlockBlob class. * @param client Reference to the service client */ constructor(client) { this.client = client; } /** * The Upload Block Blob operation updates the content of an existing block blob. Updating an existing * block blob overwrites any existing metadata on the blob. Partial updates are not supported with Put * Blob; the content of the existing blob is overwritten with the content of the new blob. To perform a * partial update of the content of a block blob, use the Put Block List operation. * @param contentLength The length of the request. * @param body Initial data * @param options The options parameters. */ upload(contentLength, body, options) { const operationArguments = { contentLength, body, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, uploadOperationSpec); } /** * The Put Blob from URL operation creates a new Block Blob where the contents of the blob are read * from a given URL. This API is supported beginning with the 2020-04-08 version. Partial updates are * not supported with Put Blob from URL; the content of an existing blob is overwritten with the * content of the new blob. To perform partial updates to a block blob’s contents using a source URL, * use the Put Block from URL API in conjunction with Put Block List. * @param contentLength The length of the request. * @param copySource Specifies the name of the source page blob snapshot. This value is a URL of up to * 2 KB in length that specifies a page blob snapshot. The value should be URL-encoded as it would * appear in a request URI. The source blob must either be public or must be authenticated via a shared * access signature. * @param options The options parameters. */ putBlobFromUrl(contentLength, copySource, options) { const operationArguments = { contentLength, copySource, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, putBlobFromUrlOperationSpec); } /** * The Stage Block operation creates a new block to be committed as part of a blob * @param blockId A valid Base64 string value that identifies the block. Prior to encoding, the string * must be less than or equal to 64 bytes in size. For a given blob, the length of the value specified * for the blockid parameter must be the same size for each block. * @param contentLength The length of the request. * @param body Initial data * @param options The options parameters. */ stageBlock(blockId, contentLength, body, options) { const operationArguments = { blockId, contentLength, body, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, stageBlockOperationSpec); } /** * The Stage Block operation creates a new block to be committed as part of a blob where the contents * are read from a URL. * @param blockId A valid Base64 string value that identifies the block. Prior to encoding, the string * must be less than or equal to 64 bytes in size. For a given blob, the length of the value specified * for the blockid parameter must be the same size for each block. * @param contentLength The length of the request. * @param sourceUrl Specify a URL to the copy source. * @param options The options parameters. */ stageBlockFromURL(blockId, contentLength, sourceUrl, options) { const operationArguments = { blockId, contentLength, sourceUrl, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, stageBlockFromURLOperationSpec); } /** * The Commit Block List operation writes a blob by specifying the list of block IDs that make up the * blob. In order to be written as part of a blob, a block must have been successfully written to the * server in a prior Put Block operation. You can call Put Block List to update a blob by uploading * only those blocks that have changed, then committing the new and existing blocks together. You can * do this by specifying whether to commit a block from the committed block list or from the * uncommitted block list, or to commit the most recently uploaded version of the block, whichever list * it may belong to. * @param blocks Blob Blocks. * @param options The options parameters. */ commitBlockList(blocks, options) { const operationArguments = { blocks, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, commitBlockListOperationSpec); } /** * The Get Block List operation retrieves the list of blocks that have been uploaded as part of a block * blob * @param listType Specifies whether to return the list of committed blocks, the list of uncommitted * blocks, or both lists together. * @param options The options parameters. */ getBlockList(listType, options) { const operationArguments = { listType, options: coreHttp__namespace.operationOptionsToRequestOptionsBase(options || {}) }; return this.client.sendOperationRequest(operationArguments, getBlockListOperationSpec); } } // Operation Specifications const xmlSerializer = new coreHttp__namespace.Serializer(Mappers, /* isXml */ true); const serializer = new coreHttp__namespace.Serializer(Mappers, /* isXml */ false); const uploadOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 201: { headersMapper: BlockBlobUploadHeaders }, default: { bodyMapper: StorageError, headersMapper: BlockBlobUploadExceptionHeaders } }, requestBody: body1, queryParameters: [timeoutInSeconds], urlParameters: [url], headerParameters: [ version, requestId, contentLength, metadata, leaseId, ifModifiedSince, ifUnmodifiedSince, encryptionKey, encryptionKeySha256, encryptionAlgorithm, ifMatch, ifNoneMatch, ifTags, blobCacheControl, blobContentType, blobContentMD5, blobContentEncoding, blobContentLanguage, blobContentDisposition, immutabilityPolicyExpiry, immutabilityPolicyMode, encryptionScope, tier, blobTagsString, legalHold1, transactionalContentMD5, transactionalContentCrc64, contentType1, accept2, blobType2 ], mediaType: "binary", serializer }; const putBlobFromUrlOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 201: { headersMapper: BlockBlobPutBlobFromUrlHeaders }, default: { bodyMapper: StorageError, headersMapper: BlockBlobPutBlobFromUrlExceptionHeaders } }, queryParameters: [timeoutInSeconds], urlParameters: [url], headerParameters: [ version, requestId, accept1, contentLength, metadata, leaseId, ifModifiedSince, ifUnmodifiedSince, encryptionKey, encryptionKeySha256, encryptionAlgorithm, ifMatch, ifNoneMatch, ifTags, blobCacheControl, blobContentType, blobContentMD5, blobContentEncoding, blobContentLanguage, blobContentDisposition, encryptionScope, tier, sourceIfModifiedSince, sourceIfUnmodifiedSince, sourceIfMatch, sourceIfNoneMatch, sourceIfTags, copySource, blobTagsString, sourceContentMD5, copySourceAuthorization, copySourceTags, transactionalContentMD5, blobType2, copySourceBlobProperties ], isXML: true, serializer: xmlSerializer }; const stageBlockOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 201: { headersMapper: BlockBlobStageBlockHeaders }, default: { bodyMapper: StorageError, headersMapper: BlockBlobStageBlockExceptionHeaders } }, requestBody: body1, queryParameters: [ timeoutInSeconds, comp24, blockId ], urlParameters: [url], headerParameters: [ version, requestId, contentLength, leaseId, encryptionKey, encryptionKeySha256, encryptionAlgorithm, encryptionScope, transactionalContentMD5, transactionalContentCrc64, contentType1, accept2 ], mediaType: "binary", serializer }; const stageBlockFromURLOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 201: { headersMapper: BlockBlobStageBlockFromURLHeaders }, default: { bodyMapper: StorageError, headersMapper: BlockBlobStageBlockFromURLExceptionHeaders } }, queryParameters: [ timeoutInSeconds, comp24, blockId ], urlParameters: [url], headerParameters: [ version, requestId, accept1, contentLength, leaseId, encryptionKey, encryptionKeySha256, encryptionAlgorithm, encryptionScope, sourceIfModifiedSince, sourceIfUnmodifiedSince, sourceIfMatch, sourceIfNoneMatch, sourceContentMD5, copySourceAuthorization, sourceUrl, sourceContentCrc64, sourceRange1 ], isXML: true, serializer: xmlSerializer }; const commitBlockListOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "PUT", responses: { 201: { headersMapper: BlockBlobCommitBlockListHeaders }, default: { bodyMapper: StorageError, headersMapper: BlockBlobCommitBlockListExceptionHeaders } }, requestBody: blocks, queryParameters: [timeoutInSeconds, comp25], urlParameters: [url], headerParameters: [ contentType, accept, version, requestId, metadata, leaseId, ifModifiedSince, ifUnmodifiedSince, encryptionKey, encryptionKeySha256, encryptionAlgorithm, ifMatch, ifNoneMatch, ifTags, blobCacheControl, blobContentType, blobContentMD5, blobContentEncoding, blobContentLanguage, blobContentDisposition, immutabilityPolicyExpiry, immutabilityPolicyMode, encryptionScope, tier, blobTagsString, legalHold1, transactionalContentMD5, transactionalContentCrc64 ], isXML: true, contentType: "application/xml; charset=utf-8", mediaType: "xml", serializer: xmlSerializer }; const getBlockListOperationSpec = { path: "/{containerName}/{blob}", httpMethod: "GET", responses: { 200: { bodyMapper: BlockList, headersMapper: BlockBlobGetBlockListHeaders }, default: { bodyMapper: StorageError, headersMapper: BlockBlobGetBlockListExceptionHeaders } }, queryParameters: [ timeoutInSeconds, snapshot, comp25, listType ], urlParameters: [url], headerParameters: [ version, requestId, accept1, leaseId, ifTags ], isXML: true, serializer: xmlSerializer }; // Copyright (c) Microsoft Corporation. /** * The `@azure/logger` configuration for this package. */ const logger = logger$1.createClientLogger("storage-blob"); // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. const SDK_VERSION = "12.14.0"; const SERVICE_VERSION = "2022-11-02"; const BLOCK_BLOB_MAX_UPLOAD_BLOB_BYTES = 256 * 1024 * 1024; // 256MB const BLOCK_BLOB_MAX_STAGE_BLOCK_BYTES = 4000 * 1024 * 1024; // 4000MB const BLOCK_BLOB_MAX_BLOCKS = 50000; const DEFAULT_BLOCK_BUFFER_SIZE_BYTES = 8 * 1024 * 1024; // 8MB const DEFAULT_BLOB_DOWNLOAD_BLOCK_BYTES = 4 * 1024 * 1024; // 4MB const DEFAULT_MAX_DOWNLOAD_RETRY_REQUESTS = 5; const REQUEST_TIMEOUT = 100 * 1000; // In ms /** * The OAuth scope to use with Azure Storage. */ const StorageOAuthScopes = "https://storage.azure.com/.default"; const URLConstants = { Parameters: { FORCE_BROWSER_NO_CACHE: "_", SIGNATURE: "sig", SNAPSHOT: "snapshot", VERSIONID: "versionid", TIMEOUT: "timeout", }, }; const HTTPURLConnection = { HTTP_ACCEPTED: 202, HTTP_CONFLICT: 409, HTTP_NOT_FOUND: 404, HTTP_PRECON_FAILED: 412, HTTP_RANGE_NOT_SATISFIABLE: 416, }; const HeaderConstants = { AUTHORIZATION: "Authorization", AUTHORIZATION_SCHEME: "Bearer", CONTENT_ENCODING: "Content-Encoding", CONTENT_ID: "Content-ID", CONTENT_LANGUAGE: "Content-Language", CONTENT_LENGTH: "Content-Length", CONTENT_MD5: "Content-Md5", CONTENT_TRANSFER_ENCODING: "Content-Transfer-Encoding", CONTENT_TYPE: "Content-Type", COOKIE: "Cookie", DATE: "date", IF_MATCH: "if-match", IF_MODIFIED_SINCE: "if-modified-since", IF_NONE_MATCH: "if-none-match", IF_UNMODIFIED_SINCE: "if-unmodified-since", PREFIX_FOR_STORAGE: "x-ms-", RANGE: "Range", USER_AGENT: "User-Agent", X_MS_CLIENT_REQUEST_ID: "x-ms-client-request-id", X_MS_COPY_SOURCE: "x-ms-copy-source", X_MS_DATE: "x-ms-date", X_MS_ERROR_CODE: "x-ms-error-code", X_MS_VERSION: "x-ms-version", }; const ETagNone = ""; const ETagAny = "*"; const SIZE_1_MB = 1 * 1024 * 1024; const BATCH_MAX_REQUEST = 256; const BATCH_MAX_PAYLOAD_IN_BYTES = 4 * SIZE_1_MB; const HTTP_LINE_ENDING = "\r\n"; const HTTP_VERSION_1_1 = "HTTP/1.1"; const EncryptionAlgorithmAES25 = "AES256"; const DevelopmentConnectionString = `DefaultEndpointsProtocol=http;AccountName=devstoreaccount1;AccountKey=Eby8vdM02xNOcqFlqUwJPLlmEtlCDXJ1OUzFT50uSRZ6IFsuFq2UVErCz4I6tq/K1SZFPTOtr/KBHBeksoGMGw==;BlobEndpoint=http://127.0.0.1:10000/devstoreaccount1;`; const StorageBlobLoggingAllowedHeaderNames = [ "Access-Control-Allow-Origin", "Cache-Control", "Content-Length", "Content-Type", "Date", "Request-Id", "traceparent", "Transfer-Encoding", "User-Agent", "x-ms-client-request-id", "x-ms-date", "x-ms-error-code", "x-ms-request-id", "x-ms-return-client-request-id", "x-ms-version", "Accept-Ranges", "Content-Disposition", "Content-Encoding", "Content-Language", "Content-MD5", "Content-Range", "ETag", "Last-Modified", "Server", "Vary", "x-ms-content-crc64", "x-ms-copy-action", "x-ms-copy-completion-time", "x-ms-copy-id", "x-ms-copy-progress", "x-ms-copy-status", "x-ms-has-immutability-policy", "x-ms-has-legal-hold", "x-ms-lease-state", "x-ms-lease-status", "x-ms-range", "x-ms-request-server-encrypted", "x-ms-server-encrypted", "x-ms-snapshot", "x-ms-source-range", "If-Match", "If-Modified-Since", "If-None-Match", "If-Unmodified-Since", "x-ms-access-tier", "x-ms-access-tier-change-time", "x-ms-access-tier-inferred", "x-ms-account-kind", "x-ms-archive-status", "x-ms-blob-append-offset", "x-ms-blob-cache-control", "x-ms-blob-committed-block-count", "x-ms-blob-condition-appendpos", "x-ms-blob-condition-maxsize", "x-ms-blob-content-disposition", "x-ms-blob-content-encoding", "x-ms-blob-content-language", "x-ms-blob-content-length", "x-ms-blob-content-md5", "x-ms-blob-content-type", "x-ms-blob-public-access", "x-ms-blob-sequence-number", "x-ms-blob-type", "x-ms-copy-destination-snapshot", "x-ms-creation-time", "x-ms-default-encryption-scope", "x-ms-delete-snapshots", "x-ms-delete-type-permanent", "x-ms-deny-encryption-scope-override", "x-ms-encryption-algorithm", "x-ms-if-sequence-number-eq", "x-ms-if-sequence-number-le", "x-ms-if-sequence-number-lt", "x-ms-incremental-copy", "x-ms-lease-action", "x-ms-lease-break-period", "x-ms-lease-duration", "x-ms-lease-id", "x-ms-lease-time", "x-ms-page-write", "x-ms-proposed-lease-id", "x-ms-range-get-content-md5", "x-ms-rehydrate-priority", "x-ms-sequence-number-action", "x-ms-sku-name", "x-ms-source-content-md5", "x-ms-source-if-match", "x-ms-source-if-modified-since", "x-ms-source-if-none-match", "x-ms-source-if-unmodified-since", "x-ms-tag-count", "x-ms-encryption-key-sha256", "x-ms-if-tags", "x-ms-source-if-tags", ]; const StorageBlobLoggingAllowedQueryParameters = [ "comp", "maxresults", "rscc", "rscd", "rsce", "rscl", "rsct", "se", "si", "sip", "sp", "spr", "sr", "srt", "ss", "st", "sv", "include", "marker", "prefix", "copyid", "restype", "blockid", "blocklisttype", "delimiter", "prevsnapshot", "ske", "skoid", "sks", "skt", "sktid", "skv", "snapshot", ]; const BlobUsesCustomerSpecifiedEncryptionMsg = "BlobUsesCustomerSpecifiedEncryption"; const BlobDoesNotUseCustomerSpecifiedEncryption = "BlobDoesNotUseCustomerSpecifiedEncryption"; /// List of ports used for path style addressing. /// Path style addressing means that storage account is put in URI's Path segment in instead of in host. const PathStylePorts = [ "10000", "10001", "10002", "10003", "10004", "10100", "10101", "10102", "10103", "10104", "11000", "11001", "11002", "11003", "11004", "11100", "11101", "11102", "11103", "11104", ]; // Copyright (c) Microsoft Corporation. /** * Reserved URL characters must be properly escaped for Storage services like Blob or File. * * ## URL encode and escape strategy for JS SDKs * * When customers pass a URL string into XxxClient classes constructor, the URL string may already be URL encoded or not. * But before sending to Azure Storage server, the URL must be encoded. However, it's hard for a SDK to guess whether the URL * string has been encoded or not. We have 2 potential strategies, and chose strategy two for the XxxClient constructors. * * ### Strategy One: Assume the customer URL string is not encoded, and always encode URL string in SDK. * * This is what legacy V2 SDK does, simple and works for most of the cases. * - When customer URL string is "http://account.blob.core.windows.net/con/b:", * SDK will encode it to "http://account.blob.core.windows.net/con/b%3A" and send to server. A blob named "b:" will be created. * - When customer URL string is "http://account.blob.core.windows.net/con/b%3A", * SDK will encode it to "http://account.blob.core.windows.net/con/b%253A" and send to server. A blob named "b%3A" will be created. * * But this strategy will make it not possible to create a blob with "?" in it's name. Because when customer URL string is * "http://account.blob.core.windows.net/con/blob?name", the "?name" will be treated as URL paramter instead of blob name. * If customer URL string is "http://account.blob.core.windows.net/con/blob%3Fname", a blob named "blob%3Fname" will be created. * V2 SDK doesn't have this issue because it doesn't allow customer pass in a full URL, it accepts a separate blob name and encodeURIComponent for it. * We cannot accept a SDK cannot create a blob name with "?". So we implement strategy two: * * ### Strategy Two: SDK doesn't assume the URL has been encoded or not. It will just escape the special characters. * * This is what V10 Blob Go SDK does. It accepts a URL type in Go, and call url.EscapedPath() to escape the special chars unescaped. * - When customer URL string is "http://account.blob.core.windows.net/con/b:", * SDK will escape ":" like "http://account.blob.core.windows.net/con/b%3A" and send to server. A blob named "b:" will be created. * - When customer URL string is "http://account.blob.core.windows.net/con/b%3A", * There is no special characters, so send "http://account.blob.core.windows.net/con/b%3A" to server. A blob named "b:" will be created. * - When customer URL string is "http://account.blob.core.windows.net/con/b%253A", * There is no special characters, so send "http://account.blob.core.windows.net/con/b%253A" to server. A blob named "b%3A" will be created. * * This strategy gives us flexibility to create with any special characters. But "%" will be treated as a special characters, if the URL string * is not encoded, there shouldn't a "%" in the URL string, otherwise the URL is not a valid URL. * If customer needs to create a blob with "%" in it's blob name, use "%25" instead of "%". Just like above 3rd sample. * And following URL strings are invalid: * - "http://account.blob.core.windows.net/con/b%" * - "http://account.blob.core.windows.net/con/b%2" * - "http://account.blob.core.windows.net/con/b%G" * * Another special character is "?", use "%2F" to represent a blob name with "?" in a URL string. * * ### Strategy for containerName, blobName or other specific XXXName parameters in methods such as `containerClient.getBlobClient(blobName)` * * We will apply strategy one, and call encodeURIComponent for these parameters like blobName. Because what customers passes in is a plain name instead of a URL. * * @see https://docs.microsoft.com/en-us/rest/api/storageservices/naming-and-referencing-containers--blobs--and-metadata * @see https://docs.microsoft.com/en-us/rest/api/storageservices/naming-and-referencing-shares--directories--files--and-metadata * * @param url - */ function escapeURLPath(url) { const urlParsed = coreHttp.URLBuilder.parse(url); let path = urlParsed.getPath(); path = path || "/"; path = escape(path); urlParsed.setPath(path); return urlParsed.toString(); } function getProxyUriFromDevConnString(connectionString) { // Development Connection String // https://docs.microsoft.com/en-us/azure/storage/common/storage-configure-connection-string#connect-to-the-emulator-account-using-the-well-known-account-name-and-key let proxyUri = ""; if (connectionString.search("DevelopmentStorageProxyUri=") !== -1) { // CONNECTION_STRING=UseDevelopmentStorage=true;DevelopmentStorageProxyUri=http://myProxyUri const matchCredentials = connectionString.split(";"); for (const element of matchCredentials) { if (element.trim().startsWith("DevelopmentStorageProxyUri=")) { proxyUri = element.trim().match("DevelopmentStorageProxyUri=(.*)")[1]; } } } return proxyUri; } function getValueInConnString(connectionString, argument) { const elements = connectionString.split(";"); for (const element of elements) { if (element.trim().startsWith(argument)) { return element.trim().match(argument + "=(.*)")[1]; } } return ""; } /** * Extracts the parts of an Azure Storage account connection string. * * @param connectionString - Connection string. * @returns String key value pairs of the storage account's url and credentials. */ function extractConnectionStringParts(connectionString) { let proxyUri = ""; if (connectionString.startsWith("UseDevelopmentStorage=true")) { // Development connection string proxyUri = getProxyUriFromDevConnString(connectionString); connectionString = DevelopmentConnectionString; } // Matching BlobEndpoint in the Account connection string let blobEndpoint = getValueInConnString(connectionString, "BlobEndpoint"); // Slicing off '/' at the end if exists // (The methods that use `extractConnectionStringParts` expect the url to not have `/` at the end) blobEndpoint = blobEndpoint.endsWith("/") ? blobEndpoint.slice(0, -1) : blobEndpoint; if (connectionString.search("DefaultEndpointsProtocol=") !== -1 && connectionString.search("AccountKey=") !== -1) { // Account connection string let defaultEndpointsProtocol = ""; let accountName = ""; let accountKey = Buffer.from("accountKey", "base64"); let endpointSuffix = ""; // Get account name and key accountName = getValueInConnString(connectionString, "AccountName"); accountKey = Buffer.from(getValueInConnString(connectionString, "AccountKey"), "base64"); if (!blobEndpoint) { // BlobEndpoint is not present in the Account connection string // Can be obtained from `${defaultEndpointsProtocol}://${accountName}.blob.${endpointSuffix}` defaultEndpointsProtocol = getValueInConnString(connectionString, "DefaultEndpointsProtocol"); const protocol = defaultEndpointsProtocol.toLowerCase(); if (protocol !== "https" && protocol !== "http") { throw new Error("Invalid DefaultEndpointsProtocol in the provided Connection String. Expecting 'https' or 'http'"); } endpointSuffix = getValueInConnString(connectionString, "EndpointSuffix"); if (!endpointSuffix) { throw new Error("Invalid EndpointSuffix in the provided Connection String"); } blobEndpoint = `${defaultEndpointsProtocol}://${accountName}.blob.${endpointSuffix}`; } if (!accountName) { throw new Error("Invalid AccountName in the provided Connection String"); } else if (accountKey.length === 0) { throw new Error("Invalid AccountKey in the provided Connection String"); } return { kind: "AccountConnString", url: blobEndpoint, accountName, accountKey, proxyUri, }; } else { // SAS connection string const accountSas = getValueInConnString(connectionString, "SharedAccessSignature"); const accountName = getAccountNameFromUrl(blobEndpoint); if (!blobEndpoint) { throw new Error("Invalid BlobEndpoint in the provided SAS Connection String"); } else if (!accountSas) { throw new Error("Invalid SharedAccessSignature in the provided SAS Connection String"); } return { kind: "SASConnString", url: blobEndpoint, accountName, accountSas }; } } /** * Internal escape method implemented Strategy Two mentioned in escapeURL() description. * * @param text - */ function escape(text) { return encodeURIComponent(text) .replace(/%2F/g, "/") // Don't escape for "/" .replace(/'/g, "%27") // Escape for "'" .replace(/\+/g, "%20") .replace(/%25/g, "%"); // Revert encoded "%" } /** * Append a string to URL path. Will remove duplicated "/" in front of the string * when URL path ends with a "/". * * @param url - Source URL string * @param name - String to be appended to URL * @returns An updated URL string */ function appendToURLPath(url, name) { const urlParsed = coreHttp.URLBuilder.parse(url); let path = urlParsed.getPath(); path = path ? (path.endsWith("/") ? `${path}${name}` : `${path}/${name}`) : name; urlParsed.setPath(path); const normalizedUrl = new URL(urlParsed.toString()); return normalizedUrl.toString(); } /** * Set URL parameter name and value. If name exists in URL parameters, old value * will be replaced by name key. If not provide value, the parameter will be deleted. * * @param url - Source URL string * @param name - Parameter name * @param value - Parameter value * @returns An updated URL string */ function setURLParameter(url, name, value) { const urlParsed = coreHttp.URLBuilder.parse(url); urlParsed.setQueryParameter(name, value); return urlParsed.toString(); } /** * Get URL parameter by name. * * @param url - * @param name - */ function getURLParameter(url, name) { const urlParsed = coreHttp.URLBuilder.parse(url); return urlParsed.getQueryParameterValue(name); } /** * Set URL host. * * @param url - Source URL string * @param host - New host string * @returns An updated URL string */ function setURLHost(url, host) { const urlParsed = coreHttp.URLBuilder.parse(url); urlParsed.setHost(host); return urlParsed.toString(); } /** * Get URL path from an URL string. * * @param url - Source URL string */ function getURLPath(url) { const urlParsed = coreHttp.URLBuilder.parse(url); return urlParsed.getPath(); } /** * Get URL scheme from an URL string. * * @param url - Source URL string */ function getURLScheme(url) { const urlParsed = coreHttp.URLBuilder.parse(url); return urlParsed.getScheme(); } /** * Get URL path and query from an URL string. * * @param url - Source URL string */ function getURLPathAndQuery(url) { const urlParsed = coreHttp.URLBuilder.parse(url); const pathString = urlParsed.getPath(); if (!pathString) { throw new RangeError("Invalid url without valid path."); } let queryString = urlParsed.getQuery() || ""; queryString = queryString.trim(); if (queryString !== "") { queryString = queryString.startsWith("?") ? queryString : `?${queryString}`; // Ensure query string start with '?' } return `${pathString}${queryString}`; } /** * Get URL query key value pairs from an URL string. * * @param url - */ function getURLQueries(url) { let queryString = coreHttp.URLBuilder.parse(url).getQuery(); if (!queryString) { return {}; } queryString = queryString.trim(); queryString = queryString.startsWith("?") ? queryString.substr(1) : queryString; let querySubStrings = queryString.split("&"); querySubStrings = querySubStrings.filter((value) => { const indexOfEqual = value.indexOf("="); const lastIndexOfEqual = value.lastIndexOf("="); return (indexOfEqual > 0 && indexOfEqual === lastIndexOfEqual && lastIndexOfEqual < value.length - 1); }); const queries = {}; for (const querySubString of querySubStrings) { const splitResults = querySubString.split("="); const key = splitResults[0]; const value = splitResults[1]; queries[key] = value; } return queries; } /** * Append a string to URL query. * * @param url - Source URL string. * @param queryParts - String to be appended to the URL query. * @returns An updated URL string. */ function appendToURLQuery(url, queryParts) { const urlParsed = coreHttp.URLBuilder.parse(url); let query = urlParsed.getQuery(); if (query) { query += "&" + queryParts; } else { query = queryParts; } urlParsed.setQuery(query); return urlParsed.toString(); } /** * Rounds a date off to seconds. * * @param date - * @param withMilliseconds - If true, YYYY-MM-DDThh:mm:ss.fffffffZ will be returned; * If false, YYYY-MM-DDThh:mm:ssZ will be returned. * @returns Date string in ISO8061 format, with or without 7 milliseconds component */ function truncatedISO8061Date(date, withMilliseconds = true) { // Date.toISOString() will return like "2018-10-29T06:34:36.139Z" const dateString = date.toISOString(); return withMilliseconds ? dateString.substring(0, dateString.length - 1) + "0000" + "Z" : dateString.substring(0, dateString.length - 5) + "Z"; } /** * Base64 encode. * * @param content - */ function base64encode(content) { return !coreHttp.isNode ? btoa(content) : Buffer.from(content).toString("base64"); } /** * Generate a 64 bytes base64 block ID string. * * @param blockIndex - */ function generateBlockID(blockIDPrefix, blockIndex) { // To generate a 64 bytes base64 string, source string should be 48 const maxSourceStringLength = 48; // A blob can have a maximum of 100,000 uncommitted blocks at any given time const maxBlockIndexLength = 6; const maxAllowedBlockIDPrefixLength = maxSourceStringLength - maxBlockIndexLength; if (blockIDPrefix.length > maxAllowedBlockIDPrefixLength) { blockIDPrefix = blockIDPrefix.slice(0, maxAllowedBlockIDPrefixLength); } const res = blockIDPrefix + padStart(blockIndex.toString(), maxSourceStringLength - blockIDPrefix.length, "0"); return base64encode(res); } /** * Delay specified time interval. * * @param timeInMs - * @param aborter - * @param abortError - */ async function delay(timeInMs, aborter, abortError) { return new Promise((resolve, reject) => { /* eslint-disable-next-line prefer-const */ let timeout; const abortHandler = () => { if (timeout !== undefined) { clearTimeout(timeout); } reject(abortError); }; const resolveHandler = () => { if (aborter !== undefined) { aborter.removeEventListener("abort", abortHandler); } resolve(); }; timeout = setTimeout(resolveHandler, timeInMs); if (aborter !== undefined) { aborter.addEventListener("abort", abortHandler); } }); } /** * String.prototype.padStart() * * @param currentString - * @param targetLength - * @param padString - */ function padStart(currentString, targetLength, padString = " ") { // @ts-expect-error: TS doesn't know this code needs to run downlevel sometimes if (String.prototype.padStart) { return currentString.padStart(targetLength, padString); } padString = padString || " "; if (currentString.length > targetLength) { return currentString; } else { targetLength = targetLength - currentString.length; if (targetLength > padString.length) { padString += padString.repeat(targetLength / padString.length); } return padString.slice(0, targetLength) + currentString; } } /** * If two strings are equal when compared case insensitive. * * @param str1 - * @param str2 - */ function iEqual(str1, str2) { return str1.toLocaleLowerCase() === str2.toLocaleLowerCase(); } /** * Extracts account name from the url * @param url - url to extract the account name from * @returns with the account name */ function getAccountNameFromUrl(url) { const parsedUrl = coreHttp.URLBuilder.parse(url); let accountName; try { if (parsedUrl.getHost().split(".")[1] === "blob") { // `${defaultEndpointsProtocol}://${accountName}.blob.${endpointSuffix}`; accountName = parsedUrl.getHost().split(".")[0]; } else if (isIpEndpointStyle(parsedUrl)) { // IPv4/IPv6 address hosts... Example - http://192.0.0.10:10001/devstoreaccount1/ // Single word domain without a [dot] in the endpoint... Example - http://localhost:10001/devstoreaccount1/ // .getPath() -> /devstoreaccount1/ accountName = parsedUrl.getPath().split("/")[1]; } else { // Custom domain case: "https://customdomain.com/containername/blob". accountName = ""; } return accountName; } catch (error) { throw new Error("Unable to extract accountName with provided information."); } } function isIpEndpointStyle(parsedUrl) { if (parsedUrl.getHost() === undefined) { return false; } const host = parsedUrl.getHost() + (parsedUrl.getPort() === undefined ? "" : ":" + parsedUrl.getPort()); // Case 1: Ipv6, use a broad regex to find out candidates whose host contains two ':'. // Case 2: localhost(:port), use broad regex to match port part. // Case 3: Ipv4, use broad regex which just check if host contains Ipv4. // For valid host please refer to https://man7.org/linux/man-pages/man7/hostname.7.html. return (/^.*:.*:.*$|^localhost(:[0-9]+)?$|^(\d|[1-9]\d|1\d\d|2[0-4]\d|25[0-5])(\.(\d|[1-9]\d|1\d\d|2[0-4]\d|25[0-5])){3}(:[0-9]+)?$/.test(host) || (parsedUrl.getPort() !== undefined && PathStylePorts.includes(parsedUrl.getPort()))); } /** * Convert Tags to encoded string. * * @param tags - */ function toBlobTagsString(tags) { if (tags === undefined) { return undefined; } const tagPairs = []; for (const key in tags) { if (Object.prototype.hasOwnProperty.call(tags, key)) { const value = tags[key]; tagPairs.push(`${encodeURIComponent(key)}=${encodeURIComponent(value)}`); } } return tagPairs.join("&"); } /** * Convert Tags type to BlobTags. * * @param tags - */ function toBlobTags(tags) { if (tags === undefined) { return undefined; } const res = { blobTagSet: [], }; for (const key in tags) { if (Object.prototype.hasOwnProperty.call(tags, key)) { const value = tags[key]; res.blobTagSet.push({ key, value, }); } } return res; } /** * Covert BlobTags to Tags type. * * @param tags - */ function toTags(tags) { if (tags === undefined) { return undefined; } const res = {}; for (const blobTag of tags.blobTagSet) { res[blobTag.key] = blobTag.value; } return res; } /** * Convert BlobQueryTextConfiguration to QuerySerialization type. * * @param textConfiguration - */ function toQuerySerialization(textConfiguration) { if (textConfiguration === undefined) { return undefined; } switch (textConfiguration.kind) { case "csv": return { format: { type: "delimited", delimitedTextConfiguration: { columnSeparator: textConfiguration.columnSeparator || ",", fieldQuote: textConfiguration.fieldQuote || "", recordSeparator: textConfiguration.recordSeparator, escapeChar: textConfiguration.escapeCharacter || "", headersPresent: textConfiguration.hasHeaders || false, }, }, }; case "json": return { format: { type: "json", jsonTextConfiguration: { recordSeparator: textConfiguration.recordSeparator, }, }, }; case "arrow": return { format: { type: "arrow", arrowConfiguration: { schema: textConfiguration.schema, }, }, }; case "parquet": return { format: { type: "parquet", }, }; default: throw Error("Invalid BlobQueryTextConfiguration."); } } function parseObjectReplicationRecord(objectReplicationRecord) { if (!objectReplicationRecord) { return undefined; } if ("policy-id" in objectReplicationRecord) { // If the dictionary contains a key with policy id, we are not required to do any parsing since // the policy id should already be stored in the ObjectReplicationDestinationPolicyId. return undefined; } const orProperties = []; for (const key in objectReplicationRecord) { const ids = key.split("_"); const policyPrefix = "or-"; if (ids[0].startsWith(policyPrefix)) { ids[0] = ids[0].substring(policyPrefix.length); } const rule = { ruleId: ids[1], replicationStatus: objectReplicationRecord[key], }; const policyIndex = orProperties.findIndex((policy) => policy.policyId === ids[0]); if (policyIndex > -1) { orProperties[policyIndex].rules.push(rule); } else { orProperties.push({ policyId: ids[0], rules: [rule], }); } } return orProperties; } /** * Attach a TokenCredential to an object. * * @param thing - * @param credential - */ function attachCredential(thing, credential) { thing.credential = credential; return thing; } function httpAuthorizationToString(httpAuthorization) { return httpAuthorization ? httpAuthorization.scheme + " " + httpAuthorization.value : undefined; } function BlobNameToString(name) { if (name.encoded) { return decodeURIComponent(name.content); } else { return name.content; } } function ConvertInternalResponseOfListBlobFlat(internalResponse) { return Object.assign(Object.assign({}, internalResponse), { segment: { blobItems: internalResponse.segment.blobItems.map((blobItemInteral) => { const blobItem = Object.assign(Object.assign({}, blobItemInteral), { name: BlobNameToString(blobItemInteral.name) }); return blobItem; }), } }); } function ConvertInternalResponseOfListBlobHierarchy(internalResponse) { var _a; return Object.assign(Object.assign({}, internalResponse), { segment: { blobPrefixes: (_a = internalResponse.segment.blobPrefixes) === null || _a === void 0 ? void 0 : _a.map((blobPrefixInternal) => { const blobPrefix = { name: BlobNameToString(blobPrefixInternal.name), }; return blobPrefix; }), blobItems: internalResponse.segment.blobItems.map((blobItemInteral) => { const blobItem = Object.assign(Object.assign({}, blobItemInteral), { name: BlobNameToString(blobItemInteral.name) }); return blobItem; }), } }); } function* ExtractPageRangeInfoItems(getPageRangesSegment) { let pageRange = []; let clearRange = []; if (getPageRangesSegment.pageRange) pageRange = getPageRangesSegment.pageRange; if (getPageRangesSegment.clearRange) clearRange = getPageRangesSegment.clearRange; let pageRangeIndex = 0; let clearRangeIndex = 0; while (pageRangeIndex < pageRange.length && clearRangeIndex < clearRange.length) { if (pageRange[pageRangeIndex].start < clearRange[clearRangeIndex].start) { yield { start: pageRange[pageRangeIndex].start, end: pageRange[pageRangeIndex].end, isClear: false, }; ++pageRangeIndex; } else { yield { start: clearRange[clearRangeIndex].start, end: clearRange[clearRangeIndex].end, isClear: true, }; ++clearRangeIndex; } } for (; pageRangeIndex < pageRange.length; ++pageRangeIndex) { yield { start: pageRange[pageRangeIndex].start, end: pageRange[pageRangeIndex].end, isClear: false, }; } for (; clearRangeIndex < clearRange.length; ++clearRangeIndex) { yield { start: clearRange[clearRangeIndex].start, end: clearRange[clearRangeIndex].end, isClear: true, }; } } /** * Escape the blobName but keep path separator ('/'). */ function EscapePath(blobName) { const split = blobName.split("/"); for (let i = 0; i < split.length; i++) { split[i] = encodeURIComponent(split[i]); } return split.join("/"); } // Copyright (c) Microsoft Corporation. /** * StorageBrowserPolicy will handle differences between Node.js and browser runtime, including: * * 1. Browsers cache GET/HEAD requests by adding conditional headers such as 'IF_MODIFIED_SINCE'. * StorageBrowserPolicy is a policy used to add a timestamp query to GET/HEAD request URL * thus avoid the browser cache. * * 2. Remove cookie header for security * * 3. Remove content-length header to avoid browsers warning */ class StorageBrowserPolicy extends coreHttp.BaseRequestPolicy { /** * Creates an instance of StorageBrowserPolicy. * @param nextPolicy - * @param options - */ // The base class has a protected constructor. Adding a public one to enable constructing of this class. /* eslint-disable-next-line @typescript-eslint/no-useless-constructor*/ constructor(nextPolicy, options) { super(nextPolicy, options); } /** * Sends out request. * * @param request - */ async sendRequest(request) { if (coreHttp.isNode) { return this._nextPolicy.sendRequest(request); } if (request.method.toUpperCase() === "GET" || request.method.toUpperCase() === "HEAD") { request.url = setURLParameter(request.url, URLConstants.Parameters.FORCE_BROWSER_NO_CACHE, new Date().getTime().toString()); } request.headers.remove(HeaderConstants.COOKIE); // According to XHR standards, content-length should be fully controlled by browsers request.headers.remove(HeaderConstants.CONTENT_LENGTH); return this._nextPolicy.sendRequest(request); } } // Copyright (c) Microsoft Corporation. /** * StorageBrowserPolicyFactory is a factory class helping generating StorageBrowserPolicy objects. */ class StorageBrowserPolicyFactory { /** * Creates a StorageBrowserPolicyFactory object. * * @param nextPolicy - * @param options - */ create(nextPolicy, options) { return new StorageBrowserPolicy(nextPolicy, options); } } // Copyright (c) Microsoft Corporation. /** * RetryPolicy types. */ exports.StorageRetryPolicyType = void 0; (function (StorageRetryPolicyType) { /** * Exponential retry. Retry time delay grows exponentially. */ StorageRetryPolicyType[StorageRetryPolicyType["EXPONENTIAL"] = 0] = "EXPONENTIAL"; /** * Linear retry. Retry time delay grows linearly. */ StorageRetryPolicyType[StorageRetryPolicyType["FIXED"] = 1] = "FIXED"; })(exports.StorageRetryPolicyType || (exports.StorageRetryPolicyType = {})); // Default values of StorageRetryOptions const DEFAULT_RETRY_OPTIONS = { maxRetryDelayInMs: 120 * 1000, maxTries: 4, retryDelayInMs: 4 * 1000, retryPolicyType: exports.StorageRetryPolicyType.EXPONENTIAL, secondaryHost: "", tryTimeoutInMs: undefined, // Use server side default timeout strategy }; const RETRY_ABORT_ERROR = new abortController.AbortError("The operation was aborted."); /** * Retry policy with exponential retry and linear retry implemented. */ class StorageRetryPolicy extends coreHttp.BaseRequestPolicy { /** * Creates an instance of RetryPolicy. * * @param nextPolicy - * @param options - * @param retryOptions - */ constructor(nextPolicy, options, retryOptions = DEFAULT_RETRY_OPTIONS) { super(nextPolicy, options); // Initialize retry options this.retryOptions = { retryPolicyType: retryOptions.retryPolicyType ? retryOptions.retryPolicyType : DEFAULT_RETRY_OPTIONS.retryPolicyType, maxTries: retryOptions.maxTries && retryOptions.maxTries >= 1 ? Math.floor(retryOptions.maxTries) : DEFAULT_RETRY_OPTIONS.maxTries, tryTimeoutInMs: retryOptions.tryTimeoutInMs && retryOptions.tryTimeoutInMs >= 0 ? retryOptions.tryTimeoutInMs : DEFAULT_RETRY_OPTIONS.tryTimeoutInMs, retryDelayInMs: retryOptions.retryDelayInMs && retryOptions.retryDelayInMs >= 0 ? Math.min(retryOptions.retryDelayInMs, retryOptions.maxRetryDelayInMs ? retryOptions.maxRetryDelayInMs : DEFAULT_RETRY_OPTIONS.maxRetryDelayInMs) : DEFAULT_RETRY_OPTIONS.retryDelayInMs, maxRetryDelayInMs: retryOptions.maxRetryDelayInMs && retryOptions.maxRetryDelayInMs >= 0 ? retryOptions.maxRetryDelayInMs : DEFAULT_RETRY_OPTIONS.maxRetryDelayInMs, secondaryHost: retryOptions.secondaryHost ? retryOptions.secondaryHost : DEFAULT_RETRY_OPTIONS.secondaryHost, }; } /** * Sends request. * * @param request - */ async sendRequest(request) { return this.attemptSendRequest(request, false, 1); } /** * Decide and perform next retry. Won't mutate request parameter. * * @param request - * @param secondaryHas404 - If attempt was against the secondary & it returned a StatusNotFound (404), then * the resource was not found. This may be due to replication delay. So, in this * case, we'll never try the secondary again for this operation. * @param attempt - How many retries has been attempted to performed, starting from 1, which includes * the attempt will be performed by this method call. */ async attemptSendRequest(request, secondaryHas404, attempt) { const newRequest = request.clone(); const isPrimaryRetry = secondaryHas404 || !this.retryOptions.secondaryHost || !(request.method === "GET" || request.method === "HEAD" || request.method === "OPTIONS") || attempt % 2 === 1; if (!isPrimaryRetry) { newRequest.url = setURLHost(newRequest.url, this.retryOptions.secondaryHost); } // Set the server-side timeout query parameter "timeout=[seconds]" if (this.retryOptions.tryTimeoutInMs) { newRequest.url = setURLParameter(newRequest.url, URLConstants.Parameters.TIMEOUT, Math.floor(this.retryOptions.tryTimeoutInMs / 1000).toString()); } let response; try { logger.info(`RetryPolicy: =====> Try=${attempt} ${isPrimaryRetry ? "Primary" : "Secondary"}`); response = await this._nextPolicy.sendRequest(newRequest); if (!this.shouldRetry(isPrimaryRetry, attempt, response)) { return response; } secondaryHas404 = secondaryHas404 || (!isPrimaryRetry && response.status === 404); } catch (err) { logger.error(`RetryPolicy: Caught error, message: ${err.message}, code: ${err.code}`); if (!this.shouldRetry(isPrimaryRetry, attempt, response, err)) { throw err; } } await this.delay(isPrimaryRetry, attempt, request.abortSignal); return this.attemptSendRequest(request, secondaryHas404, ++attempt); } /** * Decide whether to retry according to last HTTP response and retry counters. * * @param isPrimaryRetry - * @param attempt - * @param response - * @param err - */ shouldRetry(isPrimaryRetry, attempt, response, err) { if (attempt >= this.retryOptions.maxTries) { logger.info(`RetryPolicy: Attempt(s) ${attempt} >= maxTries ${this.retryOptions .maxTries}, no further try.`); return false; } // Handle network failures, you may need to customize the list when you implement // your own http client const retriableErrors = [ "ETIMEDOUT", "ESOCKETTIMEDOUT", "ECONNREFUSED", "ECONNRESET", "ENOENT", "ENOTFOUND", "TIMEOUT", "EPIPE", "REQUEST_SEND_ERROR", // For default xhr based http client provided in ms-rest-js ]; if (err) { for (const retriableError of retriableErrors) { if (err.name.toUpperCase().includes(retriableError) || err.message.toUpperCase().includes(retriableError) || (err.code && err.code.toString().toUpperCase() === retriableError)) { logger.info(`RetryPolicy: Network error ${retriableError} found, will retry.`); return true; } } } // If attempt was against the secondary & it returned a StatusNotFound (404), then // the resource was not found. This may be due to replication delay. So, in this // case, we'll never try the secondary again for this operation. if (response || err) { const statusCode = response ? response.status : err ? err.statusCode : 0; if (!isPrimaryRetry && statusCode === 404) { logger.info(`RetryPolicy: Secondary access with 404, will retry.`); return true; } // Server internal error or server timeout if (statusCode === 503 || statusCode === 500) { logger.info(`RetryPolicy: Will retry for status code ${statusCode}.`); return true; } } if ((err === null || err === void 0 ? void 0 : err.code) === "PARSE_ERROR" && (err === null || err === void 0 ? void 0 : err.message.startsWith(`Error "Error: Unclosed root tag`))) { logger.info("RetryPolicy: Incomplete XML response likely due to service timeout, will retry."); return true; } return false; } /** * Delay a calculated time between retries. * * @param isPrimaryRetry - * @param attempt - * @param abortSignal - */ async delay(isPrimaryRetry, attempt, abortSignal) { let delayTimeInMs = 0; if (isPrimaryRetry) { switch (this.retryOptions.retryPolicyType) { case exports.StorageRetryPolicyType.EXPONENTIAL: delayTimeInMs = Math.min((Math.pow(2, attempt - 1) - 1) * this.retryOptions.retryDelayInMs, this.retryOptions.maxRetryDelayInMs); break; case exports.StorageRetryPolicyType.FIXED: delayTimeInMs = this.retryOptions.retryDelayInMs; break; } } else { delayTimeInMs = Math.random() * 1000; } logger.info(`RetryPolicy: Delay for ${delayTimeInMs}ms`); return delay(delayTimeInMs, abortSignal, RETRY_ABORT_ERROR); } } // Copyright (c) Microsoft Corporation. /** * StorageRetryPolicyFactory is a factory class helping generating {@link StorageRetryPolicy} objects. */ class StorageRetryPolicyFactory { /** * Creates an instance of StorageRetryPolicyFactory. * @param retryOptions - */ constructor(retryOptions) { this.retryOptions = retryOptions; } /** * Creates a StorageRetryPolicy object. * * @param nextPolicy - * @param options - */ create(nextPolicy, options) { return new StorageRetryPolicy(nextPolicy, options, this.retryOptions); } } // Copyright (c) Microsoft Corporation. /** * Credential policy used to sign HTTP(S) requests before sending. This is an * abstract class. */ class CredentialPolicy extends coreHttp.BaseRequestPolicy { /** * Sends out request. * * @param request - */ sendRequest(request) { return this._nextPolicy.sendRequest(this.signRequest(request)); } /** * Child classes must implement this method with request signing. This method * will be executed in {@link sendRequest}. * * @param request - */ signRequest(request) { // Child classes must override this method with request signing. This method // will be executed in sendRequest(). return request; } } // Copyright (c) Microsoft Corporation. /** * AnonymousCredentialPolicy is used with HTTP(S) requests that read public resources * or for use with Shared Access Signatures (SAS). */ class AnonymousCredentialPolicy extends CredentialPolicy { /** * Creates an instance of AnonymousCredentialPolicy. * @param nextPolicy - * @param options - */ // The base class has a protected constructor. Adding a public one to enable constructing of this class. /* eslint-disable-next-line @typescript-eslint/no-useless-constructor*/ constructor(nextPolicy, options) { super(nextPolicy, options); } } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /** * Credential is an abstract class for Azure Storage HTTP requests signing. This * class will host an credentialPolicyCreator factory which generates CredentialPolicy. */ class Credential { /** * Creates a RequestPolicy object. * * @param _nextPolicy - * @param _options - */ create(_nextPolicy, _options) { throw new Error("Method should be implemented in children classes."); } } // Copyright (c) Microsoft Corporation. /** * AnonymousCredential provides a credentialPolicyCreator member used to create * AnonymousCredentialPolicy objects. AnonymousCredentialPolicy is used with * HTTP(S) requests that read public resources or for use with Shared Access * Signatures (SAS). */ class AnonymousCredential extends Credential { /** * Creates an {@link AnonymousCredentialPolicy} object. * * @param nextPolicy - * @param options - */ create(nextPolicy, options) { return new AnonymousCredentialPolicy(nextPolicy, options); } } // Copyright (c) Microsoft Corporation. /** * TelemetryPolicy is a policy used to tag user-agent header for every requests. */ class TelemetryPolicy extends coreHttp.BaseRequestPolicy { /** * Creates an instance of TelemetryPolicy. * @param nextPolicy - * @param options - * @param telemetry - */ constructor(nextPolicy, options, telemetry) { super(nextPolicy, options); this.telemetry = telemetry; } /** * Sends out request. * * @param request - */ async sendRequest(request) { if (coreHttp.isNode) { if (!request.headers) { request.headers = new coreHttp.HttpHeaders(); } if (!request.headers.get(HeaderConstants.USER_AGENT)) { request.headers.set(HeaderConstants.USER_AGENT, this.telemetry); } } return this._nextPolicy.sendRequest(request); } } // Copyright (c) Microsoft Corporation. /** * TelemetryPolicyFactory is a factory class helping generating {@link TelemetryPolicy} objects. */ class TelemetryPolicyFactory { /** * Creates an instance of TelemetryPolicyFactory. * @param telemetry - */ constructor(telemetry) { const userAgentInfo = []; if (coreHttp.isNode) { if (telemetry) { const telemetryString = telemetry.userAgentPrefix || ""; if (telemetryString.length > 0 && userAgentInfo.indexOf(telemetryString) === -1) { userAgentInfo.push(telemetryString); } } // e.g. azsdk-js-storageblob/10.0.0 const libInfo = `azsdk-js-storageblob/${SDK_VERSION}`; if (userAgentInfo.indexOf(libInfo) === -1) { userAgentInfo.push(libInfo); } // e.g. (NODE-VERSION 4.9.1; Windows_NT 10.0.16299) let runtimeInfo = `(NODE-VERSION ${process.version})`; if (os__namespace) { runtimeInfo = `(NODE-VERSION ${process.version}; ${os__namespace.type()} ${os__namespace.release()})`; } if (userAgentInfo.indexOf(runtimeInfo) === -1) { userAgentInfo.push(runtimeInfo); } } this.telemetryString = userAgentInfo.join(" "); } /** * Creates a TelemetryPolicy object. * * @param nextPolicy - * @param options - */ create(nextPolicy, options) { return new TelemetryPolicy(nextPolicy, options, this.telemetryString); } } // Copyright (c) Microsoft Corporation. const _defaultHttpClient = new coreHttp.DefaultHttpClient(); function getCachedDefaultHttpClient() { return _defaultHttpClient; } // Copyright (c) Microsoft Corporation. /** * A set of constants used internally when processing requests. */ const Constants = { DefaultScope: "/.default", /** * Defines constants for use with HTTP headers. */ HeaderConstants: { /** * The Authorization header. */ AUTHORIZATION: "authorization", }, }; // Default options for the cycler if none are provided const DEFAULT_CYCLER_OPTIONS = { forcedRefreshWindowInMs: 1000, retryIntervalInMs: 3000, refreshWindowInMs: 1000 * 60 * 2, // Start refreshing 2m before expiry }; /** * Converts an an unreliable access token getter (which may resolve with null) * into an AccessTokenGetter by retrying the unreliable getter in a regular * interval. * * @param getAccessToken - a function that produces a promise of an access * token that may fail by returning null * @param retryIntervalInMs - the time (in milliseconds) to wait between retry * attempts * @param timeoutInMs - the timestamp after which the refresh attempt will fail, * throwing an exception * @returns - a promise that, if it resolves, will resolve with an access token */ async function beginRefresh(getAccessToken, retryIntervalInMs, timeoutInMs) { // This wrapper handles exceptions gracefully as long as we haven't exceeded // the timeout. async function tryGetAccessToken() { if (Date.now() < timeoutInMs) { try { return await getAccessToken(); } catch (_a) { return null; } } else { const finalToken = await getAccessToken(); // Timeout is up, so throw if it's still null if (finalToken === null) { throw new Error("Failed to refresh access token."); } return finalToken; } } let token = await tryGetAccessToken(); while (token === null) { await coreHttp.delay(retryIntervalInMs); token = await tryGetAccessToken(); } return token; } /** * Creates a token cycler from a credential, scopes, and optional settings. * * A token cycler represents a way to reliably retrieve a valid access token * from a TokenCredential. It will handle initializing the token, refreshing it * when it nears expiration, and synchronizes refresh attempts to avoid * concurrency hazards. * * @param credential - the underlying TokenCredential that provides the access * token * @param scopes - the scopes to request authorization for * @param tokenCyclerOptions - optionally override default settings for the cycler * * @returns - a function that reliably produces a valid access token */ function createTokenCycler(credential, scopes, tokenCyclerOptions) { let refreshWorker = null; let token = null; const options = Object.assign(Object.assign({}, DEFAULT_CYCLER_OPTIONS), tokenCyclerOptions); /** * This little holder defines several predicates that we use to construct * the rules of refreshing the token. */ const cycler = { /** * Produces true if a refresh job is currently in progress. */ get isRefreshing() { return refreshWorker !== null; }, /** * Produces true if the cycler SHOULD refresh (we are within the refresh * window and not already refreshing) */ get shouldRefresh() { var _a; return (!cycler.isRefreshing && ((_a = token === null || token === void 0 ? void 0 : token.expiresOnTimestamp) !== null && _a !== void 0 ? _a : 0) - options.refreshWindowInMs < Date.now()); }, /** * Produces true if the cycler MUST refresh (null or nearly-expired * token). */ get mustRefresh() { return (token === null || token.expiresOnTimestamp - options.forcedRefreshWindowInMs < Date.now()); }, }; /** * Starts a refresh job or returns the existing job if one is already * running. */ function refresh(getTokenOptions) { var _a; if (!cycler.isRefreshing) { // We bind `scopes` here to avoid passing it around a lot const tryGetAccessToken = () => credential.getToken(scopes, getTokenOptions); // Take advantage of promise chaining to insert an assignment to `token` // before the refresh can be considered done. refreshWorker = beginRefresh(tryGetAccessToken, options.retryIntervalInMs, // If we don't have a token, then we should timeout immediately (_a = token === null || token === void 0 ? void 0 : token.expiresOnTimestamp) !== null && _a !== void 0 ? _a : Date.now()) .then((_token) => { refreshWorker = null; token = _token; return token; }) .catch((reason) => { // We also should reset the refresher if we enter a failed state. All // existing awaiters will throw, but subsequent requests will start a // new retry chain. refreshWorker = null; token = null; throw reason; }); } return refreshWorker; } return async (tokenOptions) => { // // Simple rules: // - If we MUST refresh, then return the refresh task, blocking // the pipeline until a token is available. // - If we SHOULD refresh, then run refresh but don't return it // (we can still use the cached token). // - Return the token, since it's fine if we didn't return in // step 1. // if (cycler.mustRefresh) return refresh(tokenOptions); if (cycler.shouldRefresh) { refresh(tokenOptions); } return token; }; } /** * We will retrieve the challenge only if the response status code was 401, * and if the response contained the header "WWW-Authenticate" with a non-empty value. */ function getChallenge(response) { const challenge = response.headers.get("WWW-Authenticate"); if (response.status === 401 && challenge) { return challenge; } return; } /** * Converts: `Bearer a="b" c="d"`. * Into: `[ { a: 'b', c: 'd' }]`. * * @internal */ function parseChallenge(challenge) { const bearerChallenge = challenge.slice("Bearer ".length); const challengeParts = `${bearerChallenge.trim()} `.split(" ").filter((x) => x); const keyValuePairs = challengeParts.map((keyValue) => (([key, value]) => ({ [key]: value }))(keyValue.trim().split("="))); // Key-value pairs to plain object: return keyValuePairs.reduce((a, b) => (Object.assign(Object.assign({}, a), b)), {}); } // #endregion /** * Creates a new factory for a RequestPolicy that applies a bearer token to * the requests' `Authorization` headers. * * @param credential - The TokenCredential implementation that can supply the bearer token. * @param scopes - The scopes for which the bearer token applies. */ function storageBearerTokenChallengeAuthenticationPolicy(credential, scopes) { // This simple function encapsulates the entire process of reliably retrieving the token let getToken = createTokenCycler(credential, scopes); class StorageBearerTokenChallengeAuthenticationPolicy extends coreHttp.BaseRequestPolicy { constructor(nextPolicy, options) { super(nextPolicy, options); } async sendRequest(webResource) { if (!webResource.url.toLowerCase().startsWith("https://")) { throw new Error("Bearer token authentication is not permitted for non-TLS protected (non-https) URLs."); } const getTokenInternal = getToken; const token = (await getTokenInternal({ abortSignal: webResource.abortSignal, tracingOptions: { tracingContext: webResource.tracingContext, }, })).token; webResource.headers.set(Constants.HeaderConstants.AUTHORIZATION, `Bearer ${token}`); const response = await this._nextPolicy.sendRequest(webResource); if ((response === null || response === void 0 ? void 0 : response.status) === 401) { const challenge = getChallenge(response); if (challenge) { const challengeInfo = parseChallenge(challenge); const challengeScopes = challengeInfo.resource_id + Constants.DefaultScope; const parsedAuthUri = coreHttp.URLBuilder.parse(challengeInfo.authorization_uri); const pathSegments = parsedAuthUri.getPath().split("/"); const tenantId = pathSegments[1]; const getTokenForChallenge = createTokenCycler(credential, challengeScopes); const tokenForChallenge = (await getTokenForChallenge({ abortSignal: webResource.abortSignal, tracingOptions: { tracingContext: webResource.tracingContext, }, tenantId: tenantId, })).token; getToken = getTokenForChallenge; webResource.headers.set(Constants.HeaderConstants.AUTHORIZATION, `Bearer ${tokenForChallenge}`); return this._nextPolicy.sendRequest(webResource); } } return response; } } return { create: (nextPolicy, options) => { return new StorageBearerTokenChallengeAuthenticationPolicy(nextPolicy, options); }, }; } // Copyright (c) Microsoft Corporation. /** * A helper to decide if a given argument satisfies the Pipeline contract * @param pipeline - An argument that may be a Pipeline * @returns true when the argument satisfies the Pipeline contract */ function isPipelineLike(pipeline) { if (!pipeline || typeof pipeline !== "object") { return false; } const castPipeline = pipeline; return (Array.isArray(castPipeline.factories) && typeof castPipeline.options === "object" && typeof castPipeline.toServiceClientOptions === "function"); } /** * A Pipeline class containing HTTP request policies. * You can create a default Pipeline by calling {@link newPipeline}. * Or you can create a Pipeline with your own policies by the constructor of Pipeline. * * Refer to {@link newPipeline} and provided policies before implementing your * customized Pipeline. */ class Pipeline { /** * Creates an instance of Pipeline. Customize HTTPClient by implementing IHttpClient interface. * * @param factories - * @param options - */ constructor(factories, options = {}) { this.factories = factories; // when options.httpClient is not specified, passing in a DefaultHttpClient instance to // avoid each client creating its own http client. this.options = Object.assign(Object.assign({}, options), { httpClient: options.httpClient || getCachedDefaultHttpClient() }); } /** * Transfer Pipeline object to ServiceClientOptions object which is required by * ServiceClient constructor. * * @returns The ServiceClientOptions object from this Pipeline. */ toServiceClientOptions() { return { httpClient: this.options.httpClient, requestPolicyFactories: this.factories, }; } } /** * Creates a new Pipeline object with Credential provided. * * @param credential - Such as AnonymousCredential, StorageSharedKeyCredential or any credential from the `@azure/identity` package to authenticate requests to the service. You can also provide an object that implements the TokenCredential interface. If not specified, AnonymousCredential is used. * @param pipelineOptions - Optional. Options. * @returns A new Pipeline object. */ function newPipeline(credential, pipelineOptions = {}) { var _a; if (credential === undefined) { credential = new AnonymousCredential(); } // Order is important. Closer to the API at the top & closer to the network at the bottom. // The credential's policy factory must appear close to the wire so it can sign any // changes made by other factories (like UniqueRequestIDPolicyFactory) const telemetryPolicy = new TelemetryPolicyFactory(pipelineOptions.userAgentOptions); const factories = [ coreHttp.tracingPolicy({ userAgent: telemetryPolicy.telemetryString }), coreHttp.keepAlivePolicy(pipelineOptions.keepAliveOptions), telemetryPolicy, coreHttp.generateClientRequestIdPolicy(), new StorageBrowserPolicyFactory(), new StorageRetryPolicyFactory(pipelineOptions.retryOptions), // Default deserializationPolicy is provided by protocol layer // Use customized XML char key of "#" so we could deserialize metadata // with "_" key coreHttp.deserializationPolicy(undefined, { xmlCharKey: "#" }), coreHttp.logPolicy({ logger: logger.info, allowedHeaderNames: StorageBlobLoggingAllowedHeaderNames, allowedQueryParameters: StorageBlobLoggingAllowedQueryParameters, }), ]; if (coreHttp.isNode) { // policies only available in Node.js runtime, not in browsers factories.push(coreHttp.proxyPolicy(pipelineOptions.proxyOptions)); factories.push(coreHttp.disableResponseDecompressionPolicy()); } factories.push(coreHttp.isTokenCredential(credential) ? attachCredential(storageBearerTokenChallengeAuthenticationPolicy(credential, (_a = pipelineOptions.audience) !== null && _a !== void 0 ? _a : StorageOAuthScopes), credential) : credential); return new Pipeline(factories, pipelineOptions); } // Copyright (c) Microsoft Corporation. /** * StorageSharedKeyCredentialPolicy is a policy used to sign HTTP request with a shared key. */ class StorageSharedKeyCredentialPolicy extends CredentialPolicy { /** * Creates an instance of StorageSharedKeyCredentialPolicy. * @param nextPolicy - * @param options - * @param factory - */ constructor(nextPolicy, options, factory) { super(nextPolicy, options); this.factory = factory; } /** * Signs request. * * @param request - */ signRequest(request) { request.headers.set(HeaderConstants.X_MS_DATE, new Date().toUTCString()); if (request.body && (typeof request.body === "string" || request.body !== undefined) && request.body.length > 0) { request.headers.set(HeaderConstants.CONTENT_LENGTH, Buffer.byteLength(request.body)); } const stringToSign = [ request.method.toUpperCase(), this.getHeaderValueToSign(request, HeaderConstants.CONTENT_LANGUAGE), this.getHeaderValueToSign(request, HeaderConstants.CONTENT_ENCODING), this.getHeaderValueToSign(request, HeaderConstants.CONTENT_LENGTH), this.getHeaderValueToSign(request, HeaderConstants.CONTENT_MD5), this.getHeaderValueToSign(request, HeaderConstants.CONTENT_TYPE), this.getHeaderValueToSign(request, HeaderConstants.DATE), this.getHeaderValueToSign(request, HeaderConstants.IF_MODIFIED_SINCE), this.getHeaderValueToSign(request, HeaderConstants.IF_MATCH), this.getHeaderValueToSign(request, HeaderConstants.IF_NONE_MATCH), this.getHeaderValueToSign(request, HeaderConstants.IF_UNMODIFIED_SINCE), this.getHeaderValueToSign(request, HeaderConstants.RANGE), ].join("\n") + "\n" + this.getCanonicalizedHeadersString(request) + this.getCanonicalizedResourceString(request); const signature = this.factory.computeHMACSHA256(stringToSign); request.headers.set(HeaderConstants.AUTHORIZATION, `SharedKey ${this.factory.accountName}:${signature}`); // console.log(`[URL]:${request.url}`); // console.log(`[HEADERS]:${request.headers.toString()}`); // console.log(`[STRING TO SIGN]:${JSON.stringify(stringToSign)}`); // console.log(`[KEY]: ${request.headers.get(HeaderConstants.AUTHORIZATION)}`); return request; } /** * Retrieve header value according to shared key sign rules. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/authenticate-with-shared-key * * @param request - * @param headerName - */ getHeaderValueToSign(request, headerName) { const value = request.headers.get(headerName); if (!value) { return ""; } // When using version 2015-02-21 or later, if Content-Length is zero, then // set the Content-Length part of the StringToSign to an empty string. // https://docs.microsoft.com/en-us/rest/api/storageservices/authenticate-with-shared-key if (headerName === HeaderConstants.CONTENT_LENGTH && value === "0") { return ""; } return value; } /** * To construct the CanonicalizedHeaders portion of the signature string, follow these steps: * 1. Retrieve all headers for the resource that begin with x-ms-, including the x-ms-date header. * 2. Convert each HTTP header name to lowercase. * 3. Sort the headers lexicographically by header name, in ascending order. * Each header may appear only once in the string. * 4. Replace any linear whitespace in the header value with a single space. * 5. Trim any whitespace around the colon in the header. * 6. Finally, append a new-line character to each canonicalized header in the resulting list. * Construct the CanonicalizedHeaders string by concatenating all headers in this list into a single string. * * @param request - */ getCanonicalizedHeadersString(request) { let headersArray = request.headers.headersArray().filter((value) => { return value.name.toLowerCase().startsWith(HeaderConstants.PREFIX_FOR_STORAGE); }); headersArray.sort((a, b) => { return a.name.toLowerCase().localeCompare(b.name.toLowerCase()); }); // Remove duplicate headers headersArray = headersArray.filter((value, index, array) => { if (index > 0 && value.name.toLowerCase() === array[index - 1].name.toLowerCase()) { return false; } return true; }); let canonicalizedHeadersStringToSign = ""; headersArray.forEach((header) => { canonicalizedHeadersStringToSign += `${header.name .toLowerCase() .trimRight()}:${header.value.trimLeft()}\n`; }); return canonicalizedHeadersStringToSign; } /** * Retrieves the webResource canonicalized resource string. * * @param request - */ getCanonicalizedResourceString(request) { const path = getURLPath(request.url) || "/"; let canonicalizedResourceString = ""; canonicalizedResourceString += `/${this.factory.accountName}${path}`; const queries = getURLQueries(request.url); const lowercaseQueries = {}; if (queries) { const queryKeys = []; for (const key in queries) { if (Object.prototype.hasOwnProperty.call(queries, key)) { const lowercaseKey = key.toLowerCase(); lowercaseQueries[lowercaseKey] = queries[key]; queryKeys.push(lowercaseKey); } } queryKeys.sort(); for (const key of queryKeys) { canonicalizedResourceString += `\n${key}:${decodeURIComponent(lowercaseQueries[key])}`; } } return canonicalizedResourceString; } } // Copyright (c) Microsoft Corporation. /** * ONLY AVAILABLE IN NODE.JS RUNTIME. * * StorageSharedKeyCredential for account key authorization of Azure Storage service. */ class StorageSharedKeyCredential extends Credential { /** * Creates an instance of StorageSharedKeyCredential. * @param accountName - * @param accountKey - */ constructor(accountName, accountKey) { super(); this.accountName = accountName; this.accountKey = Buffer.from(accountKey, "base64"); } /** * Creates a StorageSharedKeyCredentialPolicy object. * * @param nextPolicy - * @param options - */ create(nextPolicy, options) { return new StorageSharedKeyCredentialPolicy(nextPolicy, options, this); } /** * Generates a hash signature for an HTTP request or for a SAS. * * @param stringToSign - */ computeHMACSHA256(stringToSign) { return crypto.createHmac("sha256", this.accountKey).update(stringToSign, "utf8").digest("base64"); } } /* * Copyright (c) Microsoft Corporation. * Licensed under the MIT License. * * Code generated by Microsoft (R) AutoRest Code Generator. * Changes may cause incorrect behavior and will be lost if the code is regenerated. */ const packageName = "azure-storage-blob"; const packageVersion = "12.14.0"; class StorageClientContext extends coreHttp__namespace.ServiceClient { /** * Initializes a new instance of the StorageClientContext class. * @param url The URL of the service account, container, or blob that is the target of the desired * operation. * @param options The parameter options */ constructor(url, options) { if (url === undefined) { throw new Error("'url' cannot be null"); } // Initializing default values for options if (!options) { options = {}; } if (!options.userAgent) { const defaultUserAgent = coreHttp__namespace.getDefaultUserAgentValue(); options.userAgent = `${packageName}/${packageVersion} ${defaultUserAgent}`; } super(undefined, options); this.requestContentType = "application/json; charset=utf-8"; this.baseUri = options.endpoint || "{url}"; // Parameter assignments this.url = url; // Assigning values to Constant parameters this.version = options.version || "2022-11-02"; } } // Copyright (c) Microsoft Corporation. /** * A StorageClient represents a based URL class for {@link BlobServiceClient}, {@link ContainerClient} * and etc. */ class StorageClient { /** * Creates an instance of StorageClient. * @param url - url to resource * @param pipeline - request policy pipeline. */ constructor(url, pipeline) { // URL should be encoded and only once, protocol layer shouldn't encode URL again this.url = escapeURLPath(url); this.accountName = getAccountNameFromUrl(url); this.pipeline = pipeline; this.storageClientContext = new StorageClientContext(this.url, pipeline.toServiceClientOptions()); this.isHttps = iEqual(getURLScheme(this.url) || "", "https"); this.credential = new AnonymousCredential(); for (const factory of this.pipeline.factories) { if ((coreHttp.isNode && factory instanceof StorageSharedKeyCredential) || factory instanceof AnonymousCredential) { this.credential = factory; } else if (coreHttp.isTokenCredential(factory.credential)) { // Only works if the factory has been attached a "credential" property. // We do that in newPipeline() when using TokenCredential. this.credential = factory.credential; } } // Override protocol layer's default content-type const storageClientContext = this.storageClientContext; storageClientContext.requestContentType = undefined; } } // Copyright (c) Microsoft Corporation. /** * Creates a span using the global tracer. * @internal */ const createSpan = coreTracing.createSpanFunction({ packagePrefix: "Azure.Storage.Blob", namespace: "Microsoft.Storage", }); /** * @internal * * Adapt the tracing options from OperationOptions to what they need to be for * RequestOptionsBase (when we update to later OpenTelemetry versions this is now * two separate fields, not just one). */ function convertTracingToRequestOptionsBase(options) { var _a, _b; return { // By passing spanOptions if they exist at runtime, we're backwards compatible with @azure/core-tracing@preview.13 and earlier. spanOptions: (_a = options === null || options === void 0 ? void 0 : options.tracingOptions) === null || _a === void 0 ? void 0 : _a.spanOptions, tracingContext: (_b = options === null || options === void 0 ? void 0 : options.tracingOptions) === null || _b === void 0 ? void 0 : _b.tracingContext, }; } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /** * ONLY AVAILABLE IN NODE.JS RUNTIME. * * This is a helper class to construct a string representing the permissions granted by a ServiceSAS to a blob. Setting * a value to true means that any SAS which uses these permissions will grant permissions for that operation. Once all * the values are set, this should be serialized with toString and set as the permissions field on a * {@link BlobSASSignatureValues} object. It is possible to construct the permissions string without this class, but * the order of the permissions is particular and this class guarantees correctness. */ class BlobSASPermissions { constructor() { /** * Specifies Read access granted. */ this.read = false; /** * Specifies Add access granted. */ this.add = false; /** * Specifies Create access granted. */ this.create = false; /** * Specifies Write access granted. */ this.write = false; /** * Specifies Delete access granted. */ this.delete = false; /** * Specifies Delete version access granted. */ this.deleteVersion = false; /** * Specfies Tag access granted. */ this.tag = false; /** * Specifies Move access granted. */ this.move = false; /** * Specifies Execute access granted. */ this.execute = false; /** * Specifies SetImmutabilityPolicy access granted. */ this.setImmutabilityPolicy = false; /** * Specifies that Permanent Delete is permitted. */ this.permanentDelete = false; } /** * Creates a {@link BlobSASPermissions} from the specified permissions string. This method will throw an * Error if it encounters a character that does not correspond to a valid permission. * * @param permissions - */ static parse(permissions) { const blobSASPermissions = new BlobSASPermissions(); for (const char of permissions) { switch (char) { case "r": blobSASPermissions.read = true; break; case "a": blobSASPermissions.add = true; break; case "c": blobSASPermissions.create = true; break; case "w": blobSASPermissions.write = true; break; case "d": blobSASPermissions.delete = true; break; case "x": blobSASPermissions.deleteVersion = true; break; case "t": blobSASPermissions.tag = true; break; case "m": blobSASPermissions.move = true; break; case "e": blobSASPermissions.execute = true; break; case "i": blobSASPermissions.setImmutabilityPolicy = true; break; case "y": blobSASPermissions.permanentDelete = true; break; default: throw new RangeError(`Invalid permission: ${char}`); } } return blobSASPermissions; } /** * Creates a {@link BlobSASPermissions} from a raw object which contains same keys as it * and boolean values for them. * * @param permissionLike - */ static from(permissionLike) { const blobSASPermissions = new BlobSASPermissions(); if (permissionLike.read) { blobSASPermissions.read = true; } if (permissionLike.add) { blobSASPermissions.add = true; } if (permissionLike.create) { blobSASPermissions.create = true; } if (permissionLike.write) { blobSASPermissions.write = true; } if (permissionLike.delete) { blobSASPermissions.delete = true; } if (permissionLike.deleteVersion) { blobSASPermissions.deleteVersion = true; } if (permissionLike.tag) { blobSASPermissions.tag = true; } if (permissionLike.move) { blobSASPermissions.move = true; } if (permissionLike.execute) { blobSASPermissions.execute = true; } if (permissionLike.setImmutabilityPolicy) { blobSASPermissions.setImmutabilityPolicy = true; } if (permissionLike.permanentDelete) { blobSASPermissions.permanentDelete = true; } return blobSASPermissions; } /** * Converts the given permissions to a string. Using this method will guarantee the permissions are in an * order accepted by the service. * * @returns A string which represents the BlobSASPermissions */ toString() { const permissions = []; if (this.read) { permissions.push("r"); } if (this.add) { permissions.push("a"); } if (this.create) { permissions.push("c"); } if (this.write) { permissions.push("w"); } if (this.delete) { permissions.push("d"); } if (this.deleteVersion) { permissions.push("x"); } if (this.tag) { permissions.push("t"); } if (this.move) { permissions.push("m"); } if (this.execute) { permissions.push("e"); } if (this.setImmutabilityPolicy) { permissions.push("i"); } if (this.permanentDelete) { permissions.push("y"); } return permissions.join(""); } } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /** * This is a helper class to construct a string representing the permissions granted by a ServiceSAS to a container. * Setting a value to true means that any SAS which uses these permissions will grant permissions for that operation. * Once all the values are set, this should be serialized with toString and set as the permissions field on a * {@link BlobSASSignatureValues} object. It is possible to construct the permissions string without this class, but * the order of the permissions is particular and this class guarantees correctness. */ class ContainerSASPermissions { constructor() { /** * Specifies Read access granted. */ this.read = false; /** * Specifies Add access granted. */ this.add = false; /** * Specifies Create access granted. */ this.create = false; /** * Specifies Write access granted. */ this.write = false; /** * Specifies Delete access granted. */ this.delete = false; /** * Specifies Delete version access granted. */ this.deleteVersion = false; /** * Specifies List access granted. */ this.list = false; /** * Specfies Tag access granted. */ this.tag = false; /** * Specifies Move access granted. */ this.move = false; /** * Specifies Execute access granted. */ this.execute = false; /** * Specifies SetImmutabilityPolicy access granted. */ this.setImmutabilityPolicy = false; /** * Specifies that Permanent Delete is permitted. */ this.permanentDelete = false; /** * Specifies that Filter Blobs by Tags is permitted. */ this.filterByTags = false; } /** * Creates an {@link ContainerSASPermissions} from the specified permissions string. This method will throw an * Error if it encounters a character that does not correspond to a valid permission. * * @param permissions - */ static parse(permissions) { const containerSASPermissions = new ContainerSASPermissions(); for (const char of permissions) { switch (char) { case "r": containerSASPermissions.read = true; break; case "a": containerSASPermissions.add = true; break; case "c": containerSASPermissions.create = true; break; case "w": containerSASPermissions.write = true; break; case "d": containerSASPermissions.delete = true; break; case "l": containerSASPermissions.list = true; break; case "t": containerSASPermissions.tag = true; break; case "x": containerSASPermissions.deleteVersion = true; break; case "m": containerSASPermissions.move = true; break; case "e": containerSASPermissions.execute = true; break; case "i": containerSASPermissions.setImmutabilityPolicy = true; break; case "y": containerSASPermissions.permanentDelete = true; break; case "f": containerSASPermissions.filterByTags = true; break; default: throw new RangeError(`Invalid permission ${char}`); } } return containerSASPermissions; } /** * Creates a {@link ContainerSASPermissions} from a raw object which contains same keys as it * and boolean values for them. * * @param permissionLike - */ static from(permissionLike) { const containerSASPermissions = new ContainerSASPermissions(); if (permissionLike.read) { containerSASPermissions.read = true; } if (permissionLike.add) { containerSASPermissions.add = true; } if (permissionLike.create) { containerSASPermissions.create = true; } if (permissionLike.write) { containerSASPermissions.write = true; } if (permissionLike.delete) { containerSASPermissions.delete = true; } if (permissionLike.list) { containerSASPermissions.list = true; } if (permissionLike.deleteVersion) { containerSASPermissions.deleteVersion = true; } if (permissionLike.tag) { containerSASPermissions.tag = true; } if (permissionLike.move) { containerSASPermissions.move = true; } if (permissionLike.execute) { containerSASPermissions.execute = true; } if (permissionLike.setImmutabilityPolicy) { containerSASPermissions.setImmutabilityPolicy = true; } if (permissionLike.permanentDelete) { containerSASPermissions.permanentDelete = true; } if (permissionLike.filterByTags) { containerSASPermissions.filterByTags = true; } return containerSASPermissions; } /** * Converts the given permissions to a string. Using this method will guarantee the permissions are in an * order accepted by the service. * * The order of the characters should be as specified here to ensure correctness. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/constructing-a-service-sas * */ toString() { const permissions = []; if (this.read) { permissions.push("r"); } if (this.add) { permissions.push("a"); } if (this.create) { permissions.push("c"); } if (this.write) { permissions.push("w"); } if (this.delete) { permissions.push("d"); } if (this.deleteVersion) { permissions.push("x"); } if (this.list) { permissions.push("l"); } if (this.tag) { permissions.push("t"); } if (this.move) { permissions.push("m"); } if (this.execute) { permissions.push("e"); } if (this.setImmutabilityPolicy) { permissions.push("i"); } if (this.permanentDelete) { permissions.push("y"); } if (this.filterByTags) { permissions.push("f"); } return permissions.join(""); } } // Copyright (c) Microsoft Corporation. /** * ONLY AVAILABLE IN NODE.JS RUNTIME. * * UserDelegationKeyCredential is only used for generation of user delegation SAS. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/create-user-delegation-sas */ class UserDelegationKeyCredential { /** * Creates an instance of UserDelegationKeyCredential. * @param accountName - * @param userDelegationKey - */ constructor(accountName, userDelegationKey) { this.accountName = accountName; this.userDelegationKey = userDelegationKey; this.key = Buffer.from(userDelegationKey.value, "base64"); } /** * Generates a hash signature for an HTTP request or for a SAS. * * @param stringToSign - */ computeHMACSHA256(stringToSign) { // console.log(`stringToSign: ${JSON.stringify(stringToSign)}`); return crypto.createHmac("sha256", this.key).update(stringToSign, "utf8").digest("base64"); } } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /** * Generate SasIPRange format string. For example: * * "8.8.8.8" or "1.1.1.1-255.255.255.255" * * @param ipRange - */ function ipRangeToString(ipRange) { return ipRange.end ? `${ipRange.start}-${ipRange.end}` : ipRange.start; } // Copyright (c) Microsoft Corporation. /** * Protocols for generated SAS. */ exports.SASProtocol = void 0; (function (SASProtocol) { /** * Protocol that allows HTTPS only */ SASProtocol["Https"] = "https"; /** * Protocol that allows both HTTPS and HTTP */ SASProtocol["HttpsAndHttp"] = "https,http"; })(exports.SASProtocol || (exports.SASProtocol = {})); /** * Represents the components that make up an Azure Storage SAS' query parameters. This type is not constructed directly * by the user; it is only generated by the {@link AccountSASSignatureValues} and {@link BlobSASSignatureValues} * types. Once generated, it can be encoded into a {@link String} and appended to a URL directly (though caution should * be taken here in case there are existing query parameters, which might affect the appropriate means of appending * these query parameters). * * NOTE: Instances of this class are immutable. */ class SASQueryParameters { constructor(version, signature, permissionsOrOptions, services, resourceTypes, protocol, startsOn, expiresOn, ipRange, identifier, resource, cacheControl, contentDisposition, contentEncoding, contentLanguage, contentType, userDelegationKey, preauthorizedAgentObjectId, correlationId, encryptionScope) { this.version = version; this.signature = signature; if (permissionsOrOptions !== undefined && typeof permissionsOrOptions !== "string") { // SASQueryParametersOptions this.permissions = permissionsOrOptions.permissions; this.services = permissionsOrOptions.services; this.resourceTypes = permissionsOrOptions.resourceTypes; this.protocol = permissionsOrOptions.protocol; this.startsOn = permissionsOrOptions.startsOn; this.expiresOn = permissionsOrOptions.expiresOn; this.ipRangeInner = permissionsOrOptions.ipRange; this.identifier = permissionsOrOptions.identifier; this.encryptionScope = permissionsOrOptions.encryptionScope; this.resource = permissionsOrOptions.resource; this.cacheControl = permissionsOrOptions.cacheControl; this.contentDisposition = permissionsOrOptions.contentDisposition; this.contentEncoding = permissionsOrOptions.contentEncoding; this.contentLanguage = permissionsOrOptions.contentLanguage; this.contentType = permissionsOrOptions.contentType; if (permissionsOrOptions.userDelegationKey) { this.signedOid = permissionsOrOptions.userDelegationKey.signedObjectId; this.signedTenantId = permissionsOrOptions.userDelegationKey.signedTenantId; this.signedStartsOn = permissionsOrOptions.userDelegationKey.signedStartsOn; this.signedExpiresOn = permissionsOrOptions.userDelegationKey.signedExpiresOn; this.signedService = permissionsOrOptions.userDelegationKey.signedService; this.signedVersion = permissionsOrOptions.userDelegationKey.signedVersion; this.preauthorizedAgentObjectId = permissionsOrOptions.preauthorizedAgentObjectId; this.correlationId = permissionsOrOptions.correlationId; } } else { this.services = services; this.resourceTypes = resourceTypes; this.expiresOn = expiresOn; this.permissions = permissionsOrOptions; this.protocol = protocol; this.startsOn = startsOn; this.ipRangeInner = ipRange; this.encryptionScope = encryptionScope; this.identifier = identifier; this.resource = resource; this.cacheControl = cacheControl; this.contentDisposition = contentDisposition; this.contentEncoding = contentEncoding; this.contentLanguage = contentLanguage; this.contentType = contentType; if (userDelegationKey) { this.signedOid = userDelegationKey.signedObjectId; this.signedTenantId = userDelegationKey.signedTenantId; this.signedStartsOn = userDelegationKey.signedStartsOn; this.signedExpiresOn = userDelegationKey.signedExpiresOn; this.signedService = userDelegationKey.signedService; this.signedVersion = userDelegationKey.signedVersion; this.preauthorizedAgentObjectId = preauthorizedAgentObjectId; this.correlationId = correlationId; } } } /** * Optional. IP range allowed for this SAS. * * @readonly */ get ipRange() { if (this.ipRangeInner) { return { end: this.ipRangeInner.end, start: this.ipRangeInner.start, }; } return undefined; } /** * Encodes all SAS query parameters into a string that can be appended to a URL. * */ toString() { const params = [ "sv", "ss", "srt", "spr", "st", "se", "sip", "si", "ses", "skoid", "sktid", "skt", "ske", "sks", "skv", "sr", "sp", "sig", "rscc", "rscd", "rsce", "rscl", "rsct", "saoid", "scid", ]; const queries = []; for (const param of params) { switch (param) { case "sv": this.tryAppendQueryParameter(queries, param, this.version); break; case "ss": this.tryAppendQueryParameter(queries, param, this.services); break; case "srt": this.tryAppendQueryParameter(queries, param, this.resourceTypes); break; case "spr": this.tryAppendQueryParameter(queries, param, this.protocol); break; case "st": this.tryAppendQueryParameter(queries, param, this.startsOn ? truncatedISO8061Date(this.startsOn, false) : undefined); break; case "se": this.tryAppendQueryParameter(queries, param, this.expiresOn ? truncatedISO8061Date(this.expiresOn, false) : undefined); break; case "sip": this.tryAppendQueryParameter(queries, param, this.ipRange ? ipRangeToString(this.ipRange) : undefined); break; case "si": this.tryAppendQueryParameter(queries, param, this.identifier); break; case "ses": this.tryAppendQueryParameter(queries, param, this.encryptionScope); break; case "skoid": // Signed object ID this.tryAppendQueryParameter(queries, param, this.signedOid); break; case "sktid": // Signed tenant ID this.tryAppendQueryParameter(queries, param, this.signedTenantId); break; case "skt": // Signed key start time this.tryAppendQueryParameter(queries, param, this.signedStartsOn ? truncatedISO8061Date(this.signedStartsOn, false) : undefined); break; case "ske": // Signed key expiry time this.tryAppendQueryParameter(queries, param, this.signedExpiresOn ? truncatedISO8061Date(this.signedExpiresOn, false) : undefined); break; case "sks": // Signed key service this.tryAppendQueryParameter(queries, param, this.signedService); break; case "skv": // Signed key version this.tryAppendQueryParameter(queries, param, this.signedVersion); break; case "sr": this.tryAppendQueryParameter(queries, param, this.resource); break; case "sp": this.tryAppendQueryParameter(queries, param, this.permissions); break; case "sig": this.tryAppendQueryParameter(queries, param, this.signature); break; case "rscc": this.tryAppendQueryParameter(queries, param, this.cacheControl); break; case "rscd": this.tryAppendQueryParameter(queries, param, this.contentDisposition); break; case "rsce": this.tryAppendQueryParameter(queries, param, this.contentEncoding); break; case "rscl": this.tryAppendQueryParameter(queries, param, this.contentLanguage); break; case "rsct": this.tryAppendQueryParameter(queries, param, this.contentType); break; case "saoid": this.tryAppendQueryParameter(queries, param, this.preauthorizedAgentObjectId); break; case "scid": this.tryAppendQueryParameter(queries, param, this.correlationId); break; } } return queries.join("&"); } /** * A private helper method used to filter and append query key/value pairs into an array. * * @param queries - * @param key - * @param value - */ tryAppendQueryParameter(queries, key, value) { if (!value) { return; } key = encodeURIComponent(key); value = encodeURIComponent(value); if (key.length > 0 && value.length > 0) { queries.push(`${key}=${value}`); } } } // Copyright (c) Microsoft Corporation. function generateBlobSASQueryParameters(blobSASSignatureValues, sharedKeyCredentialOrUserDelegationKey, accountName) { const version = blobSASSignatureValues.version ? blobSASSignatureValues.version : SERVICE_VERSION; const sharedKeyCredential = sharedKeyCredentialOrUserDelegationKey instanceof StorageSharedKeyCredential ? sharedKeyCredentialOrUserDelegationKey : undefined; let userDelegationKeyCredential; if (sharedKeyCredential === undefined && accountName !== undefined) { userDelegationKeyCredential = new UserDelegationKeyCredential(accountName, sharedKeyCredentialOrUserDelegationKey); } if (sharedKeyCredential === undefined && userDelegationKeyCredential === undefined) { throw TypeError("Invalid sharedKeyCredential, userDelegationKey or accountName."); } // Version 2020-12-06 adds support for encryptionscope in SAS. if (version >= "2020-12-06") { if (sharedKeyCredential !== undefined) { return generateBlobSASQueryParameters20201206(blobSASSignatureValues, sharedKeyCredential); } else { return generateBlobSASQueryParametersUDK20201206(blobSASSignatureValues, userDelegationKeyCredential); } } // Version 2019-12-12 adds support for the blob tags permission. // Version 2018-11-09 adds support for the signed resource and signed blob snapshot time fields. // https://docs.microsoft.com/en-us/rest/api/storageservices/constructing-a-service-sas#constructing-the-signature-string if (version >= "2018-11-09") { if (sharedKeyCredential !== undefined) { return generateBlobSASQueryParameters20181109(blobSASSignatureValues, sharedKeyCredential); } else { // Version 2020-02-10 delegation SAS signature construction includes preauthorizedAgentObjectId, agentObjectId, correlationId. if (version >= "2020-02-10") { return generateBlobSASQueryParametersUDK20200210(blobSASSignatureValues, userDelegationKeyCredential); } else { return generateBlobSASQueryParametersUDK20181109(blobSASSignatureValues, userDelegationKeyCredential); } } } if (version >= "2015-04-05") { if (sharedKeyCredential !== undefined) { return generateBlobSASQueryParameters20150405(blobSASSignatureValues, sharedKeyCredential); } else { throw new RangeError("'version' must be >= '2018-11-09' when generating user delegation SAS using user delegation key."); } } throw new RangeError("'version' must be >= '2015-04-05'."); } /** * ONLY AVAILABLE IN NODE.JS RUNTIME. * IMPLEMENTATION FOR API VERSION FROM 2015-04-05 AND BEFORE 2018-11-09. * * Creates an instance of SASQueryParameters. * * Only accepts required settings needed to create a SAS. For optional settings please * set corresponding properties directly, such as permissions, startsOn and identifier. * * WARNING: When identifier is not provided, permissions and expiresOn are required. * You MUST assign value to identifier or expiresOn & permissions manually if you initial with * this constructor. * * @param blobSASSignatureValues - * @param sharedKeyCredential - */ function generateBlobSASQueryParameters20150405(blobSASSignatureValues, sharedKeyCredential) { blobSASSignatureValues = SASSignatureValuesSanityCheckAndAutofill(blobSASSignatureValues); if (!blobSASSignatureValues.identifier && !(blobSASSignatureValues.permissions && blobSASSignatureValues.expiresOn)) { throw new RangeError("Must provide 'permissions' and 'expiresOn' for Blob SAS generation when 'identifier' is not provided."); } let resource = "c"; if (blobSASSignatureValues.blobName) { resource = "b"; } // Calling parse and toString guarantees the proper ordering and throws on invalid characters. let verifiedPermissions; if (blobSASSignatureValues.permissions) { if (blobSASSignatureValues.blobName) { verifiedPermissions = BlobSASPermissions.parse(blobSASSignatureValues.permissions.toString()).toString(); } else { verifiedPermissions = ContainerSASPermissions.parse(blobSASSignatureValues.permissions.toString()).toString(); } } // Signature is generated on the un-url-encoded values. const stringToSign = [ verifiedPermissions ? verifiedPermissions : "", blobSASSignatureValues.startsOn ? truncatedISO8061Date(blobSASSignatureValues.startsOn, false) : "", blobSASSignatureValues.expiresOn ? truncatedISO8061Date(blobSASSignatureValues.expiresOn, false) : "", getCanonicalName(sharedKeyCredential.accountName, blobSASSignatureValues.containerName, blobSASSignatureValues.blobName), blobSASSignatureValues.identifier, blobSASSignatureValues.ipRange ? ipRangeToString(blobSASSignatureValues.ipRange) : "", blobSASSignatureValues.protocol ? blobSASSignatureValues.protocol : "", blobSASSignatureValues.version, blobSASSignatureValues.cacheControl ? blobSASSignatureValues.cacheControl : "", blobSASSignatureValues.contentDisposition ? blobSASSignatureValues.contentDisposition : "", blobSASSignatureValues.contentEncoding ? blobSASSignatureValues.contentEncoding : "", blobSASSignatureValues.contentLanguage ? blobSASSignatureValues.contentLanguage : "", blobSASSignatureValues.contentType ? blobSASSignatureValues.contentType : "", ].join("\n"); const signature = sharedKeyCredential.computeHMACSHA256(stringToSign); return new SASQueryParameters(blobSASSignatureValues.version, signature, verifiedPermissions, undefined, undefined, blobSASSignatureValues.protocol, blobSASSignatureValues.startsOn, blobSASSignatureValues.expiresOn, blobSASSignatureValues.ipRange, blobSASSignatureValues.identifier, resource, blobSASSignatureValues.cacheControl, blobSASSignatureValues.contentDisposition, blobSASSignatureValues.contentEncoding, blobSASSignatureValues.contentLanguage, blobSASSignatureValues.contentType); } /** * ONLY AVAILABLE IN NODE.JS RUNTIME. * IMPLEMENTATION FOR API VERSION FROM 2018-11-09. * * Creates an instance of SASQueryParameters. * * Only accepts required settings needed to create a SAS. For optional settings please * set corresponding properties directly, such as permissions, startsOn and identifier. * * WARNING: When identifier is not provided, permissions and expiresOn are required. * You MUST assign value to identifier or expiresOn & permissions manually if you initial with * this constructor. * * @param blobSASSignatureValues - * @param sharedKeyCredential - */ function generateBlobSASQueryParameters20181109(blobSASSignatureValues, sharedKeyCredential) { blobSASSignatureValues = SASSignatureValuesSanityCheckAndAutofill(blobSASSignatureValues); if (!blobSASSignatureValues.identifier && !(blobSASSignatureValues.permissions && blobSASSignatureValues.expiresOn)) { throw new RangeError("Must provide 'permissions' and 'expiresOn' for Blob SAS generation when 'identifier' is not provided."); } let resource = "c"; let timestamp = blobSASSignatureValues.snapshotTime; if (blobSASSignatureValues.blobName) { resource = "b"; if (blobSASSignatureValues.snapshotTime) { resource = "bs"; } else if (blobSASSignatureValues.versionId) { resource = "bv"; timestamp = blobSASSignatureValues.versionId; } } // Calling parse and toString guarantees the proper ordering and throws on invalid characters. let verifiedPermissions; if (blobSASSignatureValues.permissions) { if (blobSASSignatureValues.blobName) { verifiedPermissions = BlobSASPermissions.parse(blobSASSignatureValues.permissions.toString()).toString(); } else { verifiedPermissions = ContainerSASPermissions.parse(blobSASSignatureValues.permissions.toString()).toString(); } } // Signature is generated on the un-url-encoded values. const stringToSign = [ verifiedPermissions ? verifiedPermissions : "", blobSASSignatureValues.startsOn ? truncatedISO8061Date(blobSASSignatureValues.startsOn, false) : "", blobSASSignatureValues.expiresOn ? truncatedISO8061Date(blobSASSignatureValues.expiresOn, false) : "", getCanonicalName(sharedKeyCredential.accountName, blobSASSignatureValues.containerName, blobSASSignatureValues.blobName), blobSASSignatureValues.identifier, blobSASSignatureValues.ipRange ? ipRangeToString(blobSASSignatureValues.ipRange) : "", blobSASSignatureValues.protocol ? blobSASSignatureValues.protocol : "", blobSASSignatureValues.version, resource, timestamp, blobSASSignatureValues.cacheControl ? blobSASSignatureValues.cacheControl : "", blobSASSignatureValues.contentDisposition ? blobSASSignatureValues.contentDisposition : "", blobSASSignatureValues.contentEncoding ? blobSASSignatureValues.contentEncoding : "", blobSASSignatureValues.contentLanguage ? blobSASSignatureValues.contentLanguage : "", blobSASSignatureValues.contentType ? blobSASSignatureValues.contentType : "", ].join("\n"); const signature = sharedKeyCredential.computeHMACSHA256(stringToSign); return new SASQueryParameters(blobSASSignatureValues.version, signature, verifiedPermissions, undefined, undefined, blobSASSignatureValues.protocol, blobSASSignatureValues.startsOn, blobSASSignatureValues.expiresOn, blobSASSignatureValues.ipRange, blobSASSignatureValues.identifier, resource, blobSASSignatureValues.cacheControl, blobSASSignatureValues.contentDisposition, blobSASSignatureValues.contentEncoding, blobSASSignatureValues.contentLanguage, blobSASSignatureValues.contentType); } /** * ONLY AVAILABLE IN NODE.JS RUNTIME. * IMPLEMENTATION FOR API VERSION FROM 2020-12-06. * * Creates an instance of SASQueryParameters. * * Only accepts required settings needed to create a SAS. For optional settings please * set corresponding properties directly, such as permissions, startsOn and identifier. * * WARNING: When identifier is not provided, permissions and expiresOn are required. * You MUST assign value to identifier or expiresOn & permissions manually if you initial with * this constructor. * * @param blobSASSignatureValues - * @param sharedKeyCredential - */ function generateBlobSASQueryParameters20201206(blobSASSignatureValues, sharedKeyCredential) { blobSASSignatureValues = SASSignatureValuesSanityCheckAndAutofill(blobSASSignatureValues); if (!blobSASSignatureValues.identifier && !(blobSASSignatureValues.permissions && blobSASSignatureValues.expiresOn)) { throw new RangeError("Must provide 'permissions' and 'expiresOn' for Blob SAS generation when 'identifier' is not provided."); } let resource = "c"; let timestamp = blobSASSignatureValues.snapshotTime; if (blobSASSignatureValues.blobName) { resource = "b"; if (blobSASSignatureValues.snapshotTime) { resource = "bs"; } else if (blobSASSignatureValues.versionId) { resource = "bv"; timestamp = blobSASSignatureValues.versionId; } } // Calling parse and toString guarantees the proper ordering and throws on invalid characters. let verifiedPermissions; if (blobSASSignatureValues.permissions) { if (blobSASSignatureValues.blobName) { verifiedPermissions = BlobSASPermissions.parse(blobSASSignatureValues.permissions.toString()).toString(); } else { verifiedPermissions = ContainerSASPermissions.parse(blobSASSignatureValues.permissions.toString()).toString(); } } // Signature is generated on the un-url-encoded values. const stringToSign = [ verifiedPermissions ? verifiedPermissions : "", blobSASSignatureValues.startsOn ? truncatedISO8061Date(blobSASSignatureValues.startsOn, false) : "", blobSASSignatureValues.expiresOn ? truncatedISO8061Date(blobSASSignatureValues.expiresOn, false) : "", getCanonicalName(sharedKeyCredential.accountName, blobSASSignatureValues.containerName, blobSASSignatureValues.blobName), blobSASSignatureValues.identifier, blobSASSignatureValues.ipRange ? ipRangeToString(blobSASSignatureValues.ipRange) : "", blobSASSignatureValues.protocol ? blobSASSignatureValues.protocol : "", blobSASSignatureValues.version, resource, timestamp, blobSASSignatureValues.encryptionScope, blobSASSignatureValues.cacheControl ? blobSASSignatureValues.cacheControl : "", blobSASSignatureValues.contentDisposition ? blobSASSignatureValues.contentDisposition : "", blobSASSignatureValues.contentEncoding ? blobSASSignatureValues.contentEncoding : "", blobSASSignatureValues.contentLanguage ? blobSASSignatureValues.contentLanguage : "", blobSASSignatureValues.contentType ? blobSASSignatureValues.contentType : "", ].join("\n"); const signature = sharedKeyCredential.computeHMACSHA256(stringToSign); return new SASQueryParameters(blobSASSignatureValues.version, signature, verifiedPermissions, undefined, undefined, blobSASSignatureValues.protocol, blobSASSignatureValues.startsOn, blobSASSignatureValues.expiresOn, blobSASSignatureValues.ipRange, blobSASSignatureValues.identifier, resource, blobSASSignatureValues.cacheControl, blobSASSignatureValues.contentDisposition, blobSASSignatureValues.contentEncoding, blobSASSignatureValues.contentLanguage, blobSASSignatureValues.contentType, undefined, undefined, undefined, blobSASSignatureValues.encryptionScope); } /** * ONLY AVAILABLE IN NODE.JS RUNTIME. * IMPLEMENTATION FOR API VERSION FROM 2018-11-09. * * Creates an instance of SASQueryParameters. * * Only accepts required settings needed to create a SAS. For optional settings please * set corresponding properties directly, such as permissions, startsOn. * * WARNING: identifier will be ignored, permissions and expiresOn are required. * * @param blobSASSignatureValues - * @param userDelegationKeyCredential - */ function generateBlobSASQueryParametersUDK20181109(blobSASSignatureValues, userDelegationKeyCredential) { blobSASSignatureValues = SASSignatureValuesSanityCheckAndAutofill(blobSASSignatureValues); // Stored access policies are not supported for a user delegation SAS. if (!blobSASSignatureValues.permissions || !blobSASSignatureValues.expiresOn) { throw new RangeError("Must provide 'permissions' and 'expiresOn' for Blob SAS generation when generating user delegation SAS."); } let resource = "c"; let timestamp = blobSASSignatureValues.snapshotTime; if (blobSASSignatureValues.blobName) { resource = "b"; if (blobSASSignatureValues.snapshotTime) { resource = "bs"; } else if (blobSASSignatureValues.versionId) { resource = "bv"; timestamp = blobSASSignatureValues.versionId; } } // Calling parse and toString guarantees the proper ordering and throws on invalid characters. let verifiedPermissions; if (blobSASSignatureValues.permissions) { if (blobSASSignatureValues.blobName) { verifiedPermissions = BlobSASPermissions.parse(blobSASSignatureValues.permissions.toString()).toString(); } else { verifiedPermissions = ContainerSASPermissions.parse(blobSASSignatureValues.permissions.toString()).toString(); } } // Signature is generated on the un-url-encoded values. const stringToSign = [ verifiedPermissions ? verifiedPermissions : "", blobSASSignatureValues.startsOn ? truncatedISO8061Date(blobSASSignatureValues.startsOn, false) : "", blobSASSignatureValues.expiresOn ? truncatedISO8061Date(blobSASSignatureValues.expiresOn, false) : "", getCanonicalName(userDelegationKeyCredential.accountName, blobSASSignatureValues.containerName, blobSASSignatureValues.blobName), userDelegationKeyCredential.userDelegationKey.signedObjectId, userDelegationKeyCredential.userDelegationKey.signedTenantId, userDelegationKeyCredential.userDelegationKey.signedStartsOn ? truncatedISO8061Date(userDelegationKeyCredential.userDelegationKey.signedStartsOn, false) : "", userDelegationKeyCredential.userDelegationKey.signedExpiresOn ? truncatedISO8061Date(userDelegationKeyCredential.userDelegationKey.signedExpiresOn, false) : "", userDelegationKeyCredential.userDelegationKey.signedService, userDelegationKeyCredential.userDelegationKey.signedVersion, blobSASSignatureValues.ipRange ? ipRangeToString(blobSASSignatureValues.ipRange) : "", blobSASSignatureValues.protocol ? blobSASSignatureValues.protocol : "", blobSASSignatureValues.version, resource, timestamp, blobSASSignatureValues.cacheControl, blobSASSignatureValues.contentDisposition, blobSASSignatureValues.contentEncoding, blobSASSignatureValues.contentLanguage, blobSASSignatureValues.contentType, ].join("\n"); const signature = userDelegationKeyCredential.computeHMACSHA256(stringToSign); return new SASQueryParameters(blobSASSignatureValues.version, signature, verifiedPermissions, undefined, undefined, blobSASSignatureValues.protocol, blobSASSignatureValues.startsOn, blobSASSignatureValues.expiresOn, blobSASSignatureValues.ipRange, blobSASSignatureValues.identifier, resource, blobSASSignatureValues.cacheControl, blobSASSignatureValues.contentDisposition, blobSASSignatureValues.contentEncoding, blobSASSignatureValues.contentLanguage, blobSASSignatureValues.contentType, userDelegationKeyCredential.userDelegationKey); } /** * ONLY AVAILABLE IN NODE.JS RUNTIME. * IMPLEMENTATION FOR API VERSION FROM 2020-02-10. * * Creates an instance of SASQueryParameters. * * Only accepts required settings needed to create a SAS. For optional settings please * set corresponding properties directly, such as permissions, startsOn. * * WARNING: identifier will be ignored, permissions and expiresOn are required. * * @param blobSASSignatureValues - * @param userDelegationKeyCredential - */ function generateBlobSASQueryParametersUDK20200210(blobSASSignatureValues, userDelegationKeyCredential) { blobSASSignatureValues = SASSignatureValuesSanityCheckAndAutofill(blobSASSignatureValues); // Stored access policies are not supported for a user delegation SAS. if (!blobSASSignatureValues.permissions || !blobSASSignatureValues.expiresOn) { throw new RangeError("Must provide 'permissions' and 'expiresOn' for Blob SAS generation when generating user delegation SAS."); } let resource = "c"; let timestamp = blobSASSignatureValues.snapshotTime; if (blobSASSignatureValues.blobName) { resource = "b"; if (blobSASSignatureValues.snapshotTime) { resource = "bs"; } else if (blobSASSignatureValues.versionId) { resource = "bv"; timestamp = blobSASSignatureValues.versionId; } } // Calling parse and toString guarantees the proper ordering and throws on invalid characters. let verifiedPermissions; if (blobSASSignatureValues.permissions) { if (blobSASSignatureValues.blobName) { verifiedPermissions = BlobSASPermissions.parse(blobSASSignatureValues.permissions.toString()).toString(); } else { verifiedPermissions = ContainerSASPermissions.parse(blobSASSignatureValues.permissions.toString()).toString(); } } // Signature is generated on the un-url-encoded values. const stringToSign = [ verifiedPermissions ? verifiedPermissions : "", blobSASSignatureValues.startsOn ? truncatedISO8061Date(blobSASSignatureValues.startsOn, false) : "", blobSASSignatureValues.expiresOn ? truncatedISO8061Date(blobSASSignatureValues.expiresOn, false) : "", getCanonicalName(userDelegationKeyCredential.accountName, blobSASSignatureValues.containerName, blobSASSignatureValues.blobName), userDelegationKeyCredential.userDelegationKey.signedObjectId, userDelegationKeyCredential.userDelegationKey.signedTenantId, userDelegationKeyCredential.userDelegationKey.signedStartsOn ? truncatedISO8061Date(userDelegationKeyCredential.userDelegationKey.signedStartsOn, false) : "", userDelegationKeyCredential.userDelegationKey.signedExpiresOn ? truncatedISO8061Date(userDelegationKeyCredential.userDelegationKey.signedExpiresOn, false) : "", userDelegationKeyCredential.userDelegationKey.signedService, userDelegationKeyCredential.userDelegationKey.signedVersion, blobSASSignatureValues.preauthorizedAgentObjectId, undefined, blobSASSignatureValues.correlationId, blobSASSignatureValues.ipRange ? ipRangeToString(blobSASSignatureValues.ipRange) : "", blobSASSignatureValues.protocol ? blobSASSignatureValues.protocol : "", blobSASSignatureValues.version, resource, timestamp, blobSASSignatureValues.cacheControl, blobSASSignatureValues.contentDisposition, blobSASSignatureValues.contentEncoding, blobSASSignatureValues.contentLanguage, blobSASSignatureValues.contentType, ].join("\n"); const signature = userDelegationKeyCredential.computeHMACSHA256(stringToSign); return new SASQueryParameters(blobSASSignatureValues.version, signature, verifiedPermissions, undefined, undefined, blobSASSignatureValues.protocol, blobSASSignatureValues.startsOn, blobSASSignatureValues.expiresOn, blobSASSignatureValues.ipRange, blobSASSignatureValues.identifier, resource, blobSASSignatureValues.cacheControl, blobSASSignatureValues.contentDisposition, blobSASSignatureValues.contentEncoding, blobSASSignatureValues.contentLanguage, blobSASSignatureValues.contentType, userDelegationKeyCredential.userDelegationKey, blobSASSignatureValues.preauthorizedAgentObjectId, blobSASSignatureValues.correlationId); } /** * ONLY AVAILABLE IN NODE.JS RUNTIME. * IMPLEMENTATION FOR API VERSION FROM 2020-12-06. * * Creates an instance of SASQueryParameters. * * Only accepts required settings needed to create a SAS. For optional settings please * set corresponding properties directly, such as permissions, startsOn. * * WARNING: identifier will be ignored, permissions and expiresOn are required. * * @param blobSASSignatureValues - * @param userDelegationKeyCredential - */ function generateBlobSASQueryParametersUDK20201206(blobSASSignatureValues, userDelegationKeyCredential) { blobSASSignatureValues = SASSignatureValuesSanityCheckAndAutofill(blobSASSignatureValues); // Stored access policies are not supported for a user delegation SAS. if (!blobSASSignatureValues.permissions || !blobSASSignatureValues.expiresOn) { throw new RangeError("Must provide 'permissions' and 'expiresOn' for Blob SAS generation when generating user delegation SAS."); } let resource = "c"; let timestamp = blobSASSignatureValues.snapshotTime; if (blobSASSignatureValues.blobName) { resource = "b"; if (blobSASSignatureValues.snapshotTime) { resource = "bs"; } else if (blobSASSignatureValues.versionId) { resource = "bv"; timestamp = blobSASSignatureValues.versionId; } } // Calling parse and toString guarantees the proper ordering and throws on invalid characters. let verifiedPermissions; if (blobSASSignatureValues.permissions) { if (blobSASSignatureValues.blobName) { verifiedPermissions = BlobSASPermissions.parse(blobSASSignatureValues.permissions.toString()).toString(); } else { verifiedPermissions = ContainerSASPermissions.parse(blobSASSignatureValues.permissions.toString()).toString(); } } // Signature is generated on the un-url-encoded values. const stringToSign = [ verifiedPermissions ? verifiedPermissions : "", blobSASSignatureValues.startsOn ? truncatedISO8061Date(blobSASSignatureValues.startsOn, false) : "", blobSASSignatureValues.expiresOn ? truncatedISO8061Date(blobSASSignatureValues.expiresOn, false) : "", getCanonicalName(userDelegationKeyCredential.accountName, blobSASSignatureValues.containerName, blobSASSignatureValues.blobName), userDelegationKeyCredential.userDelegationKey.signedObjectId, userDelegationKeyCredential.userDelegationKey.signedTenantId, userDelegationKeyCredential.userDelegationKey.signedStartsOn ? truncatedISO8061Date(userDelegationKeyCredential.userDelegationKey.signedStartsOn, false) : "", userDelegationKeyCredential.userDelegationKey.signedExpiresOn ? truncatedISO8061Date(userDelegationKeyCredential.userDelegationKey.signedExpiresOn, false) : "", userDelegationKeyCredential.userDelegationKey.signedService, userDelegationKeyCredential.userDelegationKey.signedVersion, blobSASSignatureValues.preauthorizedAgentObjectId, undefined, blobSASSignatureValues.correlationId, blobSASSignatureValues.ipRange ? ipRangeToString(blobSASSignatureValues.ipRange) : "", blobSASSignatureValues.protocol ? blobSASSignatureValues.protocol : "", blobSASSignatureValues.version, resource, timestamp, blobSASSignatureValues.encryptionScope, blobSASSignatureValues.cacheControl, blobSASSignatureValues.contentDisposition, blobSASSignatureValues.contentEncoding, blobSASSignatureValues.contentLanguage, blobSASSignatureValues.contentType, ].join("\n"); const signature = userDelegationKeyCredential.computeHMACSHA256(stringToSign); return new SASQueryParameters(blobSASSignatureValues.version, signature, verifiedPermissions, undefined, undefined, blobSASSignatureValues.protocol, blobSASSignatureValues.startsOn, blobSASSignatureValues.expiresOn, blobSASSignatureValues.ipRange, blobSASSignatureValues.identifier, resource, blobSASSignatureValues.cacheControl, blobSASSignatureValues.contentDisposition, blobSASSignatureValues.contentEncoding, blobSASSignatureValues.contentLanguage, blobSASSignatureValues.contentType, userDelegationKeyCredential.userDelegationKey, blobSASSignatureValues.preauthorizedAgentObjectId, blobSASSignatureValues.correlationId, blobSASSignatureValues.encryptionScope); } function getCanonicalName(accountName, containerName, blobName) { // Container: "/blob/account/containerName" // Blob: "/blob/account/containerName/blobName" const elements = [`/blob/${accountName}/${containerName}`]; if (blobName) { elements.push(`/${blobName}`); } return elements.join(""); } function SASSignatureValuesSanityCheckAndAutofill(blobSASSignatureValues) { const version = blobSASSignatureValues.version ? blobSASSignatureValues.version : SERVICE_VERSION; if (blobSASSignatureValues.snapshotTime && version < "2018-11-09") { throw RangeError("'version' must be >= '2018-11-09' when providing 'snapshotTime'."); } if (blobSASSignatureValues.blobName === undefined && blobSASSignatureValues.snapshotTime) { throw RangeError("Must provide 'blobName' when providing 'snapshotTime'."); } if (blobSASSignatureValues.versionId && version < "2019-10-10") { throw RangeError("'version' must be >= '2019-10-10' when providing 'versionId'."); } if (blobSASSignatureValues.blobName === undefined && blobSASSignatureValues.versionId) { throw RangeError("Must provide 'blobName' when providing 'versionId'."); } if (blobSASSignatureValues.permissions && blobSASSignatureValues.permissions.setImmutabilityPolicy && version < "2020-08-04") { throw RangeError("'version' must be >= '2020-08-04' when provided 'i' permission."); } if (blobSASSignatureValues.permissions && blobSASSignatureValues.permissions.deleteVersion && version < "2019-10-10") { throw RangeError("'version' must be >= '2019-10-10' when providing 'x' permission."); } if (blobSASSignatureValues.permissions && blobSASSignatureValues.permissions.permanentDelete && version < "2019-10-10") { throw RangeError("'version' must be >= '2019-10-10' when providing 'y' permission."); } if (blobSASSignatureValues.permissions && blobSASSignatureValues.permissions.tag && version < "2019-12-12") { throw RangeError("'version' must be >= '2019-12-12' when providing 't' permission."); } if (version < "2020-02-10" && blobSASSignatureValues.permissions && (blobSASSignatureValues.permissions.move || blobSASSignatureValues.permissions.execute)) { throw RangeError("'version' must be >= '2020-02-10' when providing the 'm' or 'e' permission."); } if (version < "2021-04-10" && blobSASSignatureValues.permissions && blobSASSignatureValues.permissions.filterByTags) { throw RangeError("'version' must be >= '2021-04-10' when providing the 'f' permission."); } if (version < "2020-02-10" && (blobSASSignatureValues.preauthorizedAgentObjectId || blobSASSignatureValues.correlationId)) { throw RangeError("'version' must be >= '2020-02-10' when providing 'preauthorizedAgentObjectId' or 'correlationId'."); } if (blobSASSignatureValues.encryptionScope && version < "2020-12-06") { throw RangeError("'version' must be >= '2020-12-06' when provided 'encryptionScope' in SAS."); } blobSASSignatureValues.version = version; return blobSASSignatureValues; } // Copyright (c) Microsoft Corporation. /** * A client that manages leases for a {@link ContainerClient} or a {@link BlobClient}. */ class BlobLeaseClient { /** * Creates an instance of BlobLeaseClient. * @param client - The client to make the lease operation requests. * @param leaseId - Initial proposed lease id. */ constructor(client, leaseId) { const clientContext = new StorageClientContext(client.url, client.pipeline.toServiceClientOptions()); this._url = client.url; if (client.name === undefined) { this._isContainer = true; this._containerOrBlobOperation = new Container(clientContext); } else { this._isContainer = false; this._containerOrBlobOperation = new Blob$1(clientContext); } if (!leaseId) { leaseId = coreHttp.generateUuid(); } this._leaseId = leaseId; } /** * Gets the lease Id. * * @readonly */ get leaseId() { return this._leaseId; } /** * Gets the url. * * @readonly */ get url() { return this._url; } /** * Establishes and manages a lock on a container for delete operations, or on a blob * for write and delete operations. * The lock duration can be 15 to 60 seconds, or can be infinite. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/lease-container * and * @see https://docs.microsoft.com/en-us/rest/api/storageservices/lease-blob * * @param duration - Must be between 15 to 60 seconds, or infinite (-1) * @param options - option to configure lease management operations. * @returns Response data for acquire lease operation. */ async acquireLease(duration, options = {}) { var _a, _b, _c, _d, _e, _f; const { span, updatedOptions } = createSpan("BlobLeaseClient-acquireLease", options); if (this._isContainer && ((((_a = options.conditions) === null || _a === void 0 ? void 0 : _a.ifMatch) && ((_b = options.conditions) === null || _b === void 0 ? void 0 : _b.ifMatch) !== ETagNone) || (((_c = options.conditions) === null || _c === void 0 ? void 0 : _c.ifNoneMatch) && ((_d = options.conditions) === null || _d === void 0 ? void 0 : _d.ifNoneMatch) !== ETagNone) || ((_e = options.conditions) === null || _e === void 0 ? void 0 : _e.tagConditions))) { throw new RangeError("The IfMatch, IfNoneMatch and tags access conditions are ignored by the service. Values other than undefined or their default values are not acceptable."); } try { return await this._containerOrBlobOperation.acquireLease(Object.assign({ abortSignal: options.abortSignal, duration, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_f = options.conditions) === null || _f === void 0 ? void 0 : _f.tagConditions }), proposedLeaseId: this._leaseId }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * To change the ID of the lease. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/lease-container * and * @see https://docs.microsoft.com/en-us/rest/api/storageservices/lease-blob * * @param proposedLeaseId - the proposed new lease Id. * @param options - option to configure lease management operations. * @returns Response data for change lease operation. */ async changeLease(proposedLeaseId, options = {}) { var _a, _b, _c, _d, _e, _f; const { span, updatedOptions } = createSpan("BlobLeaseClient-changeLease", options); if (this._isContainer && ((((_a = options.conditions) === null || _a === void 0 ? void 0 : _a.ifMatch) && ((_b = options.conditions) === null || _b === void 0 ? void 0 : _b.ifMatch) !== ETagNone) || (((_c = options.conditions) === null || _c === void 0 ? void 0 : _c.ifNoneMatch) && ((_d = options.conditions) === null || _d === void 0 ? void 0 : _d.ifNoneMatch) !== ETagNone) || ((_e = options.conditions) === null || _e === void 0 ? void 0 : _e.tagConditions))) { throw new RangeError("The IfMatch, IfNoneMatch and tags access conditions are ignored by the service. Values other than undefined or their default values are not acceptable."); } try { const response = await this._containerOrBlobOperation.changeLease(this._leaseId, proposedLeaseId, Object.assign({ abortSignal: options.abortSignal, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_f = options.conditions) === null || _f === void 0 ? void 0 : _f.tagConditions }) }, convertTracingToRequestOptionsBase(updatedOptions))); this._leaseId = proposedLeaseId; return response; } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * To free the lease if it is no longer needed so that another client may * immediately acquire a lease against the container or the blob. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/lease-container * and * @see https://docs.microsoft.com/en-us/rest/api/storageservices/lease-blob * * @param options - option to configure lease management operations. * @returns Response data for release lease operation. */ async releaseLease(options = {}) { var _a, _b, _c, _d, _e, _f; const { span, updatedOptions } = createSpan("BlobLeaseClient-releaseLease", options); if (this._isContainer && ((((_a = options.conditions) === null || _a === void 0 ? void 0 : _a.ifMatch) && ((_b = options.conditions) === null || _b === void 0 ? void 0 : _b.ifMatch) !== ETagNone) || (((_c = options.conditions) === null || _c === void 0 ? void 0 : _c.ifNoneMatch) && ((_d = options.conditions) === null || _d === void 0 ? void 0 : _d.ifNoneMatch) !== ETagNone) || ((_e = options.conditions) === null || _e === void 0 ? void 0 : _e.tagConditions))) { throw new RangeError("The IfMatch, IfNoneMatch and tags access conditions are ignored by the service. Values other than undefined or their default values are not acceptable."); } try { return await this._containerOrBlobOperation.releaseLease(this._leaseId, Object.assign({ abortSignal: options.abortSignal, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_f = options.conditions) === null || _f === void 0 ? void 0 : _f.tagConditions }) }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * To renew the lease. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/lease-container * and * @see https://docs.microsoft.com/en-us/rest/api/storageservices/lease-blob * * @param options - Optional option to configure lease management operations. * @returns Response data for renew lease operation. */ async renewLease(options = {}) { var _a, _b, _c, _d, _e, _f; const { span, updatedOptions } = createSpan("BlobLeaseClient-renewLease", options); if (this._isContainer && ((((_a = options.conditions) === null || _a === void 0 ? void 0 : _a.ifMatch) && ((_b = options.conditions) === null || _b === void 0 ? void 0 : _b.ifMatch) !== ETagNone) || (((_c = options.conditions) === null || _c === void 0 ? void 0 : _c.ifNoneMatch) && ((_d = options.conditions) === null || _d === void 0 ? void 0 : _d.ifNoneMatch) !== ETagNone) || ((_e = options.conditions) === null || _e === void 0 ? void 0 : _e.tagConditions))) { throw new RangeError("The IfMatch, IfNoneMatch and tags access conditions are ignored by the service. Values other than undefined or their default values are not acceptable."); } try { return await this._containerOrBlobOperation.renewLease(this._leaseId, Object.assign({ abortSignal: options.abortSignal, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_f = options.conditions) === null || _f === void 0 ? void 0 : _f.tagConditions }) }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * To end the lease but ensure that another client cannot acquire a new lease * until the current lease period has expired. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/lease-container * and * @see https://docs.microsoft.com/en-us/rest/api/storageservices/lease-blob * * @param breakPeriod - Break period * @param options - Optional options to configure lease management operations. * @returns Response data for break lease operation. */ async breakLease(breakPeriod, options = {}) { var _a, _b, _c, _d, _e, _f; const { span, updatedOptions } = createSpan("BlobLeaseClient-breakLease", options); if (this._isContainer && ((((_a = options.conditions) === null || _a === void 0 ? void 0 : _a.ifMatch) && ((_b = options.conditions) === null || _b === void 0 ? void 0 : _b.ifMatch) !== ETagNone) || (((_c = options.conditions) === null || _c === void 0 ? void 0 : _c.ifNoneMatch) && ((_d = options.conditions) === null || _d === void 0 ? void 0 : _d.ifNoneMatch) !== ETagNone) || ((_e = options.conditions) === null || _e === void 0 ? void 0 : _e.tagConditions))) { throw new RangeError("The IfMatch, IfNoneMatch and tags access conditions are ignored by the service. Values other than undefined or their default values are not acceptable."); } try { const operationOptions = Object.assign({ abortSignal: options.abortSignal, breakPeriod, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_f = options.conditions) === null || _f === void 0 ? void 0 : _f.tagConditions }) }, convertTracingToRequestOptionsBase(updatedOptions)); return await this._containerOrBlobOperation.breakLease(operationOptions); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } } // Copyright (c) Microsoft Corporation. /** * ONLY AVAILABLE IN NODE.JS RUNTIME. * * A Node.js ReadableStream will internally retry when internal ReadableStream unexpected ends. */ class RetriableReadableStream extends stream.Readable { /** * Creates an instance of RetriableReadableStream. * * @param source - The current ReadableStream returned from getter * @param getter - A method calling downloading request returning * a new ReadableStream from specified offset * @param offset - Offset position in original data source to read * @param count - How much data in original data source to read * @param options - */ constructor(source, getter, offset, count, options = {}) { super({ highWaterMark: options.highWaterMark }); this.retries = 0; this.sourceDataHandler = (data) => { if (this.options.doInjectErrorOnce) { this.options.doInjectErrorOnce = undefined; this.source.pause(); this.source.removeAllListeners("data"); this.source.emit("end"); return; } // console.log( // `Offset: ${this.offset}, Received ${data.length} from internal stream` // ); this.offset += data.length; if (this.onProgress) { this.onProgress({ loadedBytes: this.offset - this.start }); } if (!this.push(data)) { this.source.pause(); } }; this.sourceErrorOrEndHandler = (err) => { if (err && err.name === "AbortError") { this.destroy(err); return; } // console.log( // `Source stream emits end or error, offset: ${ // this.offset // }, dest end : ${this.end}` // ); this.removeSourceEventHandlers(); if (this.offset - 1 === this.end) { this.push(null); } else if (this.offset <= this.end) { // console.log( // `retries: ${this.retries}, max retries: ${this.maxRetries}` // ); if (this.retries < this.maxRetryRequests) { this.retries += 1; this.getter(this.offset) .then((newSource) => { this.source = newSource; this.setSourceEventHandlers(); return; }) .catch((error) => { this.destroy(error); }); } else { this.destroy(new Error(`Data corruption failure: received less data than required and reached maxRetires limitation. Received data offset: ${this.offset - 1}, data needed offset: ${this.end}, retries: ${this.retries}, max retries: ${this.maxRetryRequests}`)); } } else { this.destroy(new Error(`Data corruption failure: Received more data than original request, data needed offset is ${this.end}, received offset: ${this.offset - 1}`)); } }; this.getter = getter; this.source = source; this.start = offset; this.offset = offset; this.end = offset + count - 1; this.maxRetryRequests = options.maxRetryRequests && options.maxRetryRequests >= 0 ? options.maxRetryRequests : 0; this.onProgress = options.onProgress; this.options = options; this.setSourceEventHandlers(); } _read() { this.source.resume(); } setSourceEventHandlers() { this.source.on("data", this.sourceDataHandler); this.source.on("end", this.sourceErrorOrEndHandler); this.source.on("error", this.sourceErrorOrEndHandler); } removeSourceEventHandlers() { this.source.removeListener("data", this.sourceDataHandler); this.source.removeListener("end", this.sourceErrorOrEndHandler); this.source.removeListener("error", this.sourceErrorOrEndHandler); } _destroy(error, callback) { // remove listener from source and release source this.removeSourceEventHandlers(); this.source.destroy(); callback(error === null ? undefined : error); } } // Copyright (c) Microsoft Corporation. /** * ONLY AVAILABLE IN NODE.JS RUNTIME. * * BlobDownloadResponse implements BlobDownloadResponseParsed interface, and in Node.js runtime it will * automatically retry when internal read stream unexpected ends. (This kind of unexpected ends cannot * trigger retries defined in pipeline retry policy.) * * The {@link readableStreamBody} stream will retry underlayer, you can just use it as a normal Node.js * Readable stream. */ class BlobDownloadResponse { /** * Creates an instance of BlobDownloadResponse. * * @param originalResponse - * @param getter - * @param offset - * @param count - * @param options - */ constructor(originalResponse, getter, offset, count, options = {}) { this.originalResponse = originalResponse; this.blobDownloadStream = new RetriableReadableStream(this.originalResponse.readableStreamBody, getter, offset, count, options); } /** * Indicates that the service supports * requests for partial file content. * * @readonly */ get acceptRanges() { return this.originalResponse.acceptRanges; } /** * Returns if it was previously specified * for the file. * * @readonly */ get cacheControl() { return this.originalResponse.cacheControl; } /** * Returns the value that was specified * for the 'x-ms-content-disposition' header and specifies how to process the * response. * * @readonly */ get contentDisposition() { return this.originalResponse.contentDisposition; } /** * Returns the value that was specified * for the Content-Encoding request header. * * @readonly */ get contentEncoding() { return this.originalResponse.contentEncoding; } /** * Returns the value that was specified * for the Content-Language request header. * * @readonly */ get contentLanguage() { return this.originalResponse.contentLanguage; } /** * The current sequence number for a * page blob. This header is not returned for block blobs or append blobs. * * @readonly */ get blobSequenceNumber() { return this.originalResponse.blobSequenceNumber; } /** * The blob's type. Possible values include: * 'BlockBlob', 'PageBlob', 'AppendBlob'. * * @readonly */ get blobType() { return this.originalResponse.blobType; } /** * The number of bytes present in the * response body. * * @readonly */ get contentLength() { return this.originalResponse.contentLength; } /** * If the file has an MD5 hash and the * request is to read the full file, this response header is returned so that * the client can check for message content integrity. If the request is to * read a specified range and the 'x-ms-range-get-content-md5' is set to * true, then the request returns an MD5 hash for the range, as long as the * range size is less than or equal to 4 MB. If neither of these sets of * conditions is true, then no value is returned for the 'Content-MD5' * header. * * @readonly */ get contentMD5() { return this.originalResponse.contentMD5; } /** * Indicates the range of bytes returned if * the client requested a subset of the file by setting the Range request * header. * * @readonly */ get contentRange() { return this.originalResponse.contentRange; } /** * The content type specified for the file. * The default content type is 'application/octet-stream' * * @readonly */ get contentType() { return this.originalResponse.contentType; } /** * Conclusion time of the last attempted * Copy File operation where this file was the destination file. This value * can specify the time of a completed, aborted, or failed copy attempt. * * @readonly */ get copyCompletedOn() { return this.originalResponse.copyCompletedOn; } /** * String identifier for the last attempted Copy * File operation where this file was the destination file. * * @readonly */ get copyId() { return this.originalResponse.copyId; } /** * Contains the number of bytes copied and * the total bytes in the source in the last attempted Copy File operation * where this file was the destination file. Can show between 0 and * Content-Length bytes copied. * * @readonly */ get copyProgress() { return this.originalResponse.copyProgress; } /** * URL up to 2KB in length that specifies the * source file used in the last attempted Copy File operation where this file * was the destination file. * * @readonly */ get copySource() { return this.originalResponse.copySource; } /** * State of the copy operation * identified by 'x-ms-copy-id'. Possible values include: 'pending', * 'success', 'aborted', 'failed' * * @readonly */ get copyStatus() { return this.originalResponse.copyStatus; } /** * Only appears when * x-ms-copy-status is failed or pending. Describes cause of fatal or * non-fatal copy operation failure. * * @readonly */ get copyStatusDescription() { return this.originalResponse.copyStatusDescription; } /** * When a blob is leased, * specifies whether the lease is of infinite or fixed duration. Possible * values include: 'infinite', 'fixed'. * * @readonly */ get leaseDuration() { return this.originalResponse.leaseDuration; } /** * Lease state of the blob. Possible * values include: 'available', 'leased', 'expired', 'breaking', 'broken'. * * @readonly */ get leaseState() { return this.originalResponse.leaseState; } /** * The current lease status of the * blob. Possible values include: 'locked', 'unlocked'. * * @readonly */ get leaseStatus() { return this.originalResponse.leaseStatus; } /** * A UTC date/time value generated by the service that * indicates the time at which the response was initiated. * * @readonly */ get date() { return this.originalResponse.date; } /** * The number of committed blocks * present in the blob. This header is returned only for append blobs. * * @readonly */ get blobCommittedBlockCount() { return this.originalResponse.blobCommittedBlockCount; } /** * The ETag contains a value that you can use to * perform operations conditionally, in quotes. * * @readonly */ get etag() { return this.originalResponse.etag; } /** * The number of tags associated with the blob * * @readonly */ get tagCount() { return this.originalResponse.tagCount; } /** * The error code. * * @readonly */ get errorCode() { return this.originalResponse.errorCode; } /** * The value of this header is set to * true if the file data and application metadata are completely encrypted * using the specified algorithm. Otherwise, the value is set to false (when * the file is unencrypted, or if only parts of the file/application metadata * are encrypted). * * @readonly */ get isServerEncrypted() { return this.originalResponse.isServerEncrypted; } /** * If the blob has a MD5 hash, and if * request contains range header (Range or x-ms-range), this response header * is returned with the value of the whole blob's MD5 value. This value may * or may not be equal to the value returned in Content-MD5 header, with the * latter calculated from the requested range. * * @readonly */ get blobContentMD5() { return this.originalResponse.blobContentMD5; } /** * Returns the date and time the file was last * modified. Any operation that modifies the file or its properties updates * the last modified time. * * @readonly */ get lastModified() { return this.originalResponse.lastModified; } /** * Returns the UTC date and time generated by the service that indicates the time at which the blob was * last read or written to. * * @readonly */ get lastAccessed() { return this.originalResponse.lastAccessed; } /** * Returns the date and time the blob was created. * * @readonly */ get createdOn() { return this.originalResponse.createdOn; } /** * A name-value pair * to associate with a file storage object. * * @readonly */ get metadata() { return this.originalResponse.metadata; } /** * This header uniquely identifies the request * that was made and can be used for troubleshooting the request. * * @readonly */ get requestId() { return this.originalResponse.requestId; } /** * If a client request id header is sent in the request, this header will be present in the * response with the same value. * * @readonly */ get clientRequestId() { return this.originalResponse.clientRequestId; } /** * Indicates the version of the Blob service used * to execute the request. * * @readonly */ get version() { return this.originalResponse.version; } /** * Indicates the versionId of the downloaded blob version. * * @readonly */ get versionId() { return this.originalResponse.versionId; } /** * Indicates whether version of this blob is a current version. * * @readonly */ get isCurrentVersion() { return this.originalResponse.isCurrentVersion; } /** * The SHA-256 hash of the encryption key used to encrypt the blob. This value is only returned * when the blob was encrypted with a customer-provided key. * * @readonly */ get encryptionKeySha256() { return this.originalResponse.encryptionKeySha256; } /** * If the request is to read a specified range and the x-ms-range-get-content-crc64 is set to * true, then the request returns a crc64 for the range, as long as the range size is less than * or equal to 4 MB. If both x-ms-range-get-content-crc64 & x-ms-range-get-content-md5 is * specified in the same request, it will fail with 400(Bad Request) */ get contentCrc64() { return this.originalResponse.contentCrc64; } /** * Object Replication Policy Id of the destination blob. * * @readonly */ get objectReplicationDestinationPolicyId() { return this.originalResponse.objectReplicationDestinationPolicyId; } /** * Parsed Object Replication Policy Id, Rule Id(s) and status of the source blob. * * @readonly */ get objectReplicationSourceProperties() { return this.originalResponse.objectReplicationSourceProperties; } /** * If this blob has been sealed. * * @readonly */ get isSealed() { return this.originalResponse.isSealed; } /** * UTC date/time value generated by the service that indicates the time at which the blob immutability policy will expire. * * @readonly */ get immutabilityPolicyExpiresOn() { return this.originalResponse.immutabilityPolicyExpiresOn; } /** * Indicates immutability policy mode. * * @readonly */ get immutabilityPolicyMode() { return this.originalResponse.immutabilityPolicyMode; } /** * Indicates if a legal hold is present on the blob. * * @readonly */ get legalHold() { return this.originalResponse.legalHold; } /** * The response body as a browser Blob. * Always undefined in node.js. * * @readonly */ get contentAsBlob() { return this.originalResponse.blobBody; } /** * The response body as a node.js Readable stream. * Always undefined in the browser. * * It will automatically retry when internal read stream unexpected ends. * * @readonly */ get readableStreamBody() { return coreHttp.isNode ? this.blobDownloadStream : undefined; } /** * The HTTP response. */ get _response() { return this.originalResponse._response; } } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. const AVRO_SYNC_MARKER_SIZE = 16; const AVRO_INIT_BYTES = new Uint8Array([79, 98, 106, 1]); const AVRO_CODEC_KEY = "avro.codec"; const AVRO_SCHEMA_KEY = "avro.schema"; // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. class AvroParser { /** * Reads a fixed number of bytes from the stream. * * @param stream - * @param length - * @param options - */ static async readFixedBytes(stream, length, options = {}) { const bytes = await stream.read(length, { abortSignal: options.abortSignal }); if (bytes.length !== length) { throw new Error("Hit stream end."); } return bytes; } /** * Reads a single byte from the stream. * * @param stream - * @param options - */ static async readByte(stream, options = {}) { const buf = await AvroParser.readFixedBytes(stream, 1, options); return buf[0]; } // int and long are stored in variable-length zig-zag coding. // variable-length: https://lucene.apache.org/core/3_5_0/fileformats.html#VInt // zig-zag: https://developers.google.com/protocol-buffers/docs/encoding?csw=1#types static async readZigZagLong(stream, options = {}) { let zigZagEncoded = 0; let significanceInBit = 0; let byte, haveMoreByte, significanceInFloat; do { byte = await AvroParser.readByte(stream, options); haveMoreByte = byte & 0x80; zigZagEncoded |= (byte & 0x7f) << significanceInBit; significanceInBit += 7; } while (haveMoreByte && significanceInBit < 28); // bitwise operation only works for 32-bit integers if (haveMoreByte) { // Switch to float arithmetic // eslint-disable-next-line no-self-assign zigZagEncoded = zigZagEncoded; significanceInFloat = 268435456; // 2 ** 28. do { byte = await AvroParser.readByte(stream, options); zigZagEncoded += (byte & 0x7f) * significanceInFloat; significanceInFloat *= 128; // 2 ** 7 } while (byte & 0x80); const res = (zigZagEncoded % 2 ? -(zigZagEncoded + 1) : zigZagEncoded) / 2; if (res < Number.MIN_SAFE_INTEGER || res > Number.MAX_SAFE_INTEGER) { throw new Error("Integer overflow."); } return res; } return (zigZagEncoded >> 1) ^ -(zigZagEncoded & 1); } static async readLong(stream, options = {}) { return AvroParser.readZigZagLong(stream, options); } static async readInt(stream, options = {}) { return AvroParser.readZigZagLong(stream, options); } static async readNull() { return null; } static async readBoolean(stream, options = {}) { const b = await AvroParser.readByte(stream, options); if (b === 1) { return true; } else if (b === 0) { return false; } else { throw new Error("Byte was not a boolean."); } } static async readFloat(stream, options = {}) { const u8arr = await AvroParser.readFixedBytes(stream, 4, options); const view = new DataView(u8arr.buffer, u8arr.byteOffset, u8arr.byteLength); return view.getFloat32(0, true); // littleEndian = true } static async readDouble(stream, options = {}) { const u8arr = await AvroParser.readFixedBytes(stream, 8, options); const view = new DataView(u8arr.buffer, u8arr.byteOffset, u8arr.byteLength); return view.getFloat64(0, true); // littleEndian = true } static async readBytes(stream, options = {}) { const size = await AvroParser.readLong(stream, options); if (size < 0) { throw new Error("Bytes size was negative."); } return stream.read(size, { abortSignal: options.abortSignal }); } static async readString(stream, options = {}) { const u8arr = await AvroParser.readBytes(stream, options); const utf8decoder = new TextDecoder(); return utf8decoder.decode(u8arr); } static async readMapPair(stream, readItemMethod, options = {}) { const key = await AvroParser.readString(stream, options); // FUTURE: this won't work with readFixed (currently not supported) which needs a length as the parameter. const value = await readItemMethod(stream, options); return { key, value }; } static async readMap(stream, readItemMethod, options = {}) { const readPairMethod = (s, opts = {}) => { return AvroParser.readMapPair(s, readItemMethod, opts); }; const pairs = await AvroParser.readArray(stream, readPairMethod, options); const dict = {}; for (const pair of pairs) { dict[pair.key] = pair.value; } return dict; } static async readArray(stream, readItemMethod, options = {}) { const items = []; for (let count = await AvroParser.readLong(stream, options); count !== 0; count = await AvroParser.readLong(stream, options)) { if (count < 0) { // Ignore block sizes await AvroParser.readLong(stream, options); count = -count; } while (count--) { const item = await readItemMethod(stream, options); items.push(item); } } return items; } } var AvroComplex; (function (AvroComplex) { AvroComplex["RECORD"] = "record"; AvroComplex["ENUM"] = "enum"; AvroComplex["ARRAY"] = "array"; AvroComplex["MAP"] = "map"; AvroComplex["UNION"] = "union"; AvroComplex["FIXED"] = "fixed"; })(AvroComplex || (AvroComplex = {})); var AvroPrimitive; (function (AvroPrimitive) { AvroPrimitive["NULL"] = "null"; AvroPrimitive["BOOLEAN"] = "boolean"; AvroPrimitive["INT"] = "int"; AvroPrimitive["LONG"] = "long"; AvroPrimitive["FLOAT"] = "float"; AvroPrimitive["DOUBLE"] = "double"; AvroPrimitive["BYTES"] = "bytes"; AvroPrimitive["STRING"] = "string"; })(AvroPrimitive || (AvroPrimitive = {})); class AvroType { /** * Determines the AvroType from the Avro Schema. */ static fromSchema(schema) { if (typeof schema === "string") { return AvroType.fromStringSchema(schema); } else if (Array.isArray(schema)) { return AvroType.fromArraySchema(schema); } else { return AvroType.fromObjectSchema(schema); } } static fromStringSchema(schema) { switch (schema) { case AvroPrimitive.NULL: case AvroPrimitive.BOOLEAN: case AvroPrimitive.INT: case AvroPrimitive.LONG: case AvroPrimitive.FLOAT: case AvroPrimitive.DOUBLE: case AvroPrimitive.BYTES: case AvroPrimitive.STRING: return new AvroPrimitiveType(schema); default: throw new Error(`Unexpected Avro type ${schema}`); } } static fromArraySchema(schema) { return new AvroUnionType(schema.map(AvroType.fromSchema)); } static fromObjectSchema(schema) { const type = schema.type; // Primitives can be defined as strings or objects try { return AvroType.fromStringSchema(type); } catch (err) { // eslint-disable-line no-empty } switch (type) { case AvroComplex.RECORD: if (schema.aliases) { throw new Error(`aliases currently is not supported, schema: ${schema}`); } if (!schema.name) { throw new Error(`Required attribute 'name' doesn't exist on schema: ${schema}`); } // eslint-disable-next-line no-case-declarations const fields = {}; if (!schema.fields) { throw new Error(`Required attribute 'fields' doesn't exist on schema: ${schema}`); } for (const field of schema.fields) { fields[field.name] = AvroType.fromSchema(field.type); } return new AvroRecordType(fields, schema.name); case AvroComplex.ENUM: if (schema.aliases) { throw new Error(`aliases currently is not supported, schema: ${schema}`); } if (!schema.symbols) { throw new Error(`Required attribute 'symbols' doesn't exist on schema: ${schema}`); } return new AvroEnumType(schema.symbols); case AvroComplex.MAP: if (!schema.values) { throw new Error(`Required attribute 'values' doesn't exist on schema: ${schema}`); } return new AvroMapType(AvroType.fromSchema(schema.values)); case AvroComplex.ARRAY: // Unused today case AvroComplex.FIXED: // Unused today default: throw new Error(`Unexpected Avro type ${type} in ${schema}`); } } } class AvroPrimitiveType extends AvroType { constructor(primitive) { super(); this._primitive = primitive; } read(stream, options = {}) { switch (this._primitive) { case AvroPrimitive.NULL: return AvroParser.readNull(); case AvroPrimitive.BOOLEAN: return AvroParser.readBoolean(stream, options); case AvroPrimitive.INT: return AvroParser.readInt(stream, options); case AvroPrimitive.LONG: return AvroParser.readLong(stream, options); case AvroPrimitive.FLOAT: return AvroParser.readFloat(stream, options); case AvroPrimitive.DOUBLE: return AvroParser.readDouble(stream, options); case AvroPrimitive.BYTES: return AvroParser.readBytes(stream, options); case AvroPrimitive.STRING: return AvroParser.readString(stream, options); default: throw new Error("Unknown Avro Primitive"); } } } class AvroEnumType extends AvroType { constructor(symbols) { super(); this._symbols = symbols; } async read(stream, options = {}) { const value = await AvroParser.readInt(stream, options); return this._symbols[value]; } } class AvroUnionType extends AvroType { constructor(types) { super(); this._types = types; } async read(stream, options = {}) { // eslint-disable-line @typescript-eslint/ban-types const typeIndex = await AvroParser.readInt(stream, options); return this._types[typeIndex].read(stream, options); } } class AvroMapType extends AvroType { constructor(itemType) { super(); this._itemType = itemType; } read(stream, options = {}) { const readItemMethod = (s, opts) => { return this._itemType.read(s, opts); }; return AvroParser.readMap(stream, readItemMethod, options); } } class AvroRecordType extends AvroType { constructor(fields, name) { super(); this._fields = fields; this._name = name; } async read(stream, options = {}) { const record = {}; record["$schema"] = this._name; for (const key in this._fields) { if (Object.prototype.hasOwnProperty.call(this._fields, key)) { record[key] = await this._fields[key].read(stream, options); } } return record; } } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. function arraysEqual(a, b) { if (a === b) return true; // eslint-disable-next-line eqeqeq if (a == null || b == null) return false; if (a.length !== b.length) return false; for (let i = 0; i < a.length; ++i) { if (a[i] !== b[i]) return false; } return true; } // Copyright (c) Microsoft Corporation. class AvroReader { constructor(dataStream, headerStream, currentBlockOffset, indexWithinCurrentBlock) { this._dataStream = dataStream; this._headerStream = headerStream || dataStream; this._initialized = false; this._blockOffset = currentBlockOffset || 0; this._objectIndex = indexWithinCurrentBlock || 0; this._initialBlockOffset = currentBlockOffset || 0; } get blockOffset() { return this._blockOffset; } get objectIndex() { return this._objectIndex; } async initialize(options = {}) { const header = await AvroParser.readFixedBytes(this._headerStream, AVRO_INIT_BYTES.length, { abortSignal: options.abortSignal, }); if (!arraysEqual(header, AVRO_INIT_BYTES)) { throw new Error("Stream is not an Avro file."); } // File metadata is written as if defined by the following map schema: // { "type": "map", "values": "bytes"} this._metadata = await AvroParser.readMap(this._headerStream, AvroParser.readString, { abortSignal: options.abortSignal, }); // Validate codec const codec = this._metadata[AVRO_CODEC_KEY]; if (!(codec === undefined || codec === null || codec === "null")) { throw new Error("Codecs are not supported"); } // The 16-byte, randomly-generated sync marker for this file. this._syncMarker = await AvroParser.readFixedBytes(this._headerStream, AVRO_SYNC_MARKER_SIZE, { abortSignal: options.abortSignal, }); // Parse the schema const schema = JSON.parse(this._metadata[AVRO_SCHEMA_KEY]); this._itemType = AvroType.fromSchema(schema); if (this._blockOffset === 0) { this._blockOffset = this._initialBlockOffset + this._dataStream.position; } this._itemsRemainingInBlock = await AvroParser.readLong(this._dataStream, { abortSignal: options.abortSignal, }); // skip block length await AvroParser.readLong(this._dataStream, { abortSignal: options.abortSignal }); this._initialized = true; if (this._objectIndex && this._objectIndex > 0) { for (let i = 0; i < this._objectIndex; i++) { await this._itemType.read(this._dataStream, { abortSignal: options.abortSignal }); this._itemsRemainingInBlock--; } } } hasNext() { return !this._initialized || this._itemsRemainingInBlock > 0; } parseObjects(options = {}) { return tslib.__asyncGenerator(this, arguments, function* parseObjects_1() { if (!this._initialized) { yield tslib.__await(this.initialize(options)); } while (this.hasNext()) { const result = yield tslib.__await(this._itemType.read(this._dataStream, { abortSignal: options.abortSignal, })); this._itemsRemainingInBlock--; this._objectIndex++; if (this._itemsRemainingInBlock === 0) { const marker = yield tslib.__await(AvroParser.readFixedBytes(this._dataStream, AVRO_SYNC_MARKER_SIZE, { abortSignal: options.abortSignal, })); this._blockOffset = this._initialBlockOffset + this._dataStream.position; this._objectIndex = 0; if (!arraysEqual(this._syncMarker, marker)) { throw new Error("Stream is not a valid Avro file."); } try { this._itemsRemainingInBlock = yield tslib.__await(AvroParser.readLong(this._dataStream, { abortSignal: options.abortSignal, })); } catch (err) { // We hit the end of the stream. this._itemsRemainingInBlock = 0; } if (this._itemsRemainingInBlock > 0) { // Ignore block size yield tslib.__await(AvroParser.readLong(this._dataStream, { abortSignal: options.abortSignal })); } } yield yield tslib.__await(result); } }); } } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. class AvroReadable { } // Copyright (c) Microsoft Corporation. const ABORT_ERROR = new abortController.AbortError("Reading from the avro stream was aborted."); class AvroReadableFromStream extends AvroReadable { constructor(readable) { super(); this._readable = readable; this._position = 0; } toUint8Array(data) { if (typeof data === "string") { return Buffer.from(data); } return data; } get position() { return this._position; } async read(size, options = {}) { var _a; if ((_a = options.abortSignal) === null || _a === void 0 ? void 0 : _a.aborted) { throw ABORT_ERROR; } if (size < 0) { throw new Error(`size parameter should be positive: ${size}`); } if (size === 0) { return new Uint8Array(); } if (!this._readable.readable) { throw new Error("Stream no longer readable."); } // See if there is already enough data. const chunk = this._readable.read(size); if (chunk) { this._position += chunk.length; // chunk.length maybe less than desired size if the stream ends. return this.toUint8Array(chunk); } else { // register callback to wait for enough data to read return new Promise((resolve, reject) => { /* eslint-disable @typescript-eslint/no-use-before-define */ const cleanUp = () => { this._readable.removeListener("readable", readableCallback); this._readable.removeListener("error", rejectCallback); this._readable.removeListener("end", rejectCallback); this._readable.removeListener("close", rejectCallback); if (options.abortSignal) { options.abortSignal.removeEventListener("abort", abortHandler); } }; const readableCallback = () => { const callbackChunk = this._readable.read(size); if (callbackChunk) { this._position += callbackChunk.length; cleanUp(); // callbackChunk.length maybe less than desired size if the stream ends. resolve(this.toUint8Array(callbackChunk)); } }; const rejectCallback = () => { cleanUp(); reject(); }; const abortHandler = () => { cleanUp(); reject(ABORT_ERROR); }; this._readable.on("readable", readableCallback); this._readable.once("error", rejectCallback); this._readable.once("end", rejectCallback); this._readable.once("close", rejectCallback); if (options.abortSignal) { options.abortSignal.addEventListener("abort", abortHandler); } /* eslint-enable @typescript-eslint/no-use-before-define */ }); } } } // Copyright (c) Microsoft Corporation. /** * ONLY AVAILABLE IN NODE.JS RUNTIME. * * A Node.js BlobQuickQueryStream will internally parse avro data stream for blob query. */ class BlobQuickQueryStream extends stream.Readable { /** * Creates an instance of BlobQuickQueryStream. * * @param source - The current ReadableStream returned from getter * @param options - */ constructor(source, options = {}) { super(); this.avroPaused = true; this.source = source; this.onProgress = options.onProgress; this.onError = options.onError; this.avroReader = new AvroReader(new AvroReadableFromStream(this.source)); this.avroIter = this.avroReader.parseObjects({ abortSignal: options.abortSignal }); } _read() { if (this.avroPaused) { this.readInternal().catch((err) => { this.emit("error", err); }); } } async readInternal() { this.avroPaused = false; let avroNext; do { avroNext = await this.avroIter.next(); if (avroNext.done) { break; } const obj = avroNext.value; const schema = obj.$schema; if (typeof schema !== "string") { throw Error("Missing schema in avro record."); } switch (schema) { case "com.microsoft.azure.storage.queryBlobContents.resultData": { const data = obj.data; if (data instanceof Uint8Array === false) { throw Error("Invalid data in avro result record."); } if (!this.push(Buffer.from(data))) { this.avroPaused = true; } } break; case "com.microsoft.azure.storage.queryBlobContents.progress": { const bytesScanned = obj.bytesScanned; if (typeof bytesScanned !== "number") { throw Error("Invalid bytesScanned in avro progress record."); } if (this.onProgress) { this.onProgress({ loadedBytes: bytesScanned }); } } break; case "com.microsoft.azure.storage.queryBlobContents.end": if (this.onProgress) { const totalBytes = obj.totalBytes; if (typeof totalBytes !== "number") { throw Error("Invalid totalBytes in avro end record."); } this.onProgress({ loadedBytes: totalBytes }); } this.push(null); break; case "com.microsoft.azure.storage.queryBlobContents.error": if (this.onError) { const fatal = obj.fatal; if (typeof fatal !== "boolean") { throw Error("Invalid fatal in avro error record."); } const name = obj.name; if (typeof name !== "string") { throw Error("Invalid name in avro error record."); } const description = obj.description; if (typeof description !== "string") { throw Error("Invalid description in avro error record."); } const position = obj.position; if (typeof position !== "number") { throw Error("Invalid position in avro error record."); } this.onError({ position, name, isFatal: fatal, description, }); } break; default: throw Error(`Unknown schema ${schema} in avro progress record.`); } } while (!avroNext.done && !this.avroPaused); } } // Copyright (c) Microsoft Corporation. /** * ONLY AVAILABLE IN NODE.JS RUNTIME. * * BlobQueryResponse implements BlobDownloadResponseModel interface, and in Node.js runtime it will * parse avor data returned by blob query. */ class BlobQueryResponse { /** * Creates an instance of BlobQueryResponse. * * @param originalResponse - * @param options - */ constructor(originalResponse, options = {}) { this.originalResponse = originalResponse; this.blobDownloadStream = new BlobQuickQueryStream(this.originalResponse.readableStreamBody, options); } /** * Indicates that the service supports * requests for partial file content. * * @readonly */ get acceptRanges() { return this.originalResponse.acceptRanges; } /** * Returns if it was previously specified * for the file. * * @readonly */ get cacheControl() { return this.originalResponse.cacheControl; } /** * Returns the value that was specified * for the 'x-ms-content-disposition' header and specifies how to process the * response. * * @readonly */ get contentDisposition() { return this.originalResponse.contentDisposition; } /** * Returns the value that was specified * for the Content-Encoding request header. * * @readonly */ get contentEncoding() { return this.originalResponse.contentEncoding; } /** * Returns the value that was specified * for the Content-Language request header. * * @readonly */ get contentLanguage() { return this.originalResponse.contentLanguage; } /** * The current sequence number for a * page blob. This header is not returned for block blobs or append blobs. * * @readonly */ get blobSequenceNumber() { return this.originalResponse.blobSequenceNumber; } /** * The blob's type. Possible values include: * 'BlockBlob', 'PageBlob', 'AppendBlob'. * * @readonly */ get blobType() { return this.originalResponse.blobType; } /** * The number of bytes present in the * response body. * * @readonly */ get contentLength() { return this.originalResponse.contentLength; } /** * If the file has an MD5 hash and the * request is to read the full file, this response header is returned so that * the client can check for message content integrity. If the request is to * read a specified range and the 'x-ms-range-get-content-md5' is set to * true, then the request returns an MD5 hash for the range, as long as the * range size is less than or equal to 4 MB. If neither of these sets of * conditions is true, then no value is returned for the 'Content-MD5' * header. * * @readonly */ get contentMD5() { return this.originalResponse.contentMD5; } /** * Indicates the range of bytes returned if * the client requested a subset of the file by setting the Range request * header. * * @readonly */ get contentRange() { return this.originalResponse.contentRange; } /** * The content type specified for the file. * The default content type is 'application/octet-stream' * * @readonly */ get contentType() { return this.originalResponse.contentType; } /** * Conclusion time of the last attempted * Copy File operation where this file was the destination file. This value * can specify the time of a completed, aborted, or failed copy attempt. * * @readonly */ get copyCompletedOn() { return undefined; } /** * String identifier for the last attempted Copy * File operation where this file was the destination file. * * @readonly */ get copyId() { return this.originalResponse.copyId; } /** * Contains the number of bytes copied and * the total bytes in the source in the last attempted Copy File operation * where this file was the destination file. Can show between 0 and * Content-Length bytes copied. * * @readonly */ get copyProgress() { return this.originalResponse.copyProgress; } /** * URL up to 2KB in length that specifies the * source file used in the last attempted Copy File operation where this file * was the destination file. * * @readonly */ get copySource() { return this.originalResponse.copySource; } /** * State of the copy operation * identified by 'x-ms-copy-id'. Possible values include: 'pending', * 'success', 'aborted', 'failed' * * @readonly */ get copyStatus() { return this.originalResponse.copyStatus; } /** * Only appears when * x-ms-copy-status is failed or pending. Describes cause of fatal or * non-fatal copy operation failure. * * @readonly */ get copyStatusDescription() { return this.originalResponse.copyStatusDescription; } /** * When a blob is leased, * specifies whether the lease is of infinite or fixed duration. Possible * values include: 'infinite', 'fixed'. * * @readonly */ get leaseDuration() { return this.originalResponse.leaseDuration; } /** * Lease state of the blob. Possible * values include: 'available', 'leased', 'expired', 'breaking', 'broken'. * * @readonly */ get leaseState() { return this.originalResponse.leaseState; } /** * The current lease status of the * blob. Possible values include: 'locked', 'unlocked'. * * @readonly */ get leaseStatus() { return this.originalResponse.leaseStatus; } /** * A UTC date/time value generated by the service that * indicates the time at which the response was initiated. * * @readonly */ get date() { return this.originalResponse.date; } /** * The number of committed blocks * present in the blob. This header is returned only for append blobs. * * @readonly */ get blobCommittedBlockCount() { return this.originalResponse.blobCommittedBlockCount; } /** * The ETag contains a value that you can use to * perform operations conditionally, in quotes. * * @readonly */ get etag() { return this.originalResponse.etag; } /** * The error code. * * @readonly */ get errorCode() { return this.originalResponse.errorCode; } /** * The value of this header is set to * true if the file data and application metadata are completely encrypted * using the specified algorithm. Otherwise, the value is set to false (when * the file is unencrypted, or if only parts of the file/application metadata * are encrypted). * * @readonly */ get isServerEncrypted() { return this.originalResponse.isServerEncrypted; } /** * If the blob has a MD5 hash, and if * request contains range header (Range or x-ms-range), this response header * is returned with the value of the whole blob's MD5 value. This value may * or may not be equal to the value returned in Content-MD5 header, with the * latter calculated from the requested range. * * @readonly */ get blobContentMD5() { return this.originalResponse.blobContentMD5; } /** * Returns the date and time the file was last * modified. Any operation that modifies the file or its properties updates * the last modified time. * * @readonly */ get lastModified() { return this.originalResponse.lastModified; } /** * A name-value pair * to associate with a file storage object. * * @readonly */ get metadata() { return this.originalResponse.metadata; } /** * This header uniquely identifies the request * that was made and can be used for troubleshooting the request. * * @readonly */ get requestId() { return this.originalResponse.requestId; } /** * If a client request id header is sent in the request, this header will be present in the * response with the same value. * * @readonly */ get clientRequestId() { return this.originalResponse.clientRequestId; } /** * Indicates the version of the File service used * to execute the request. * * @readonly */ get version() { return this.originalResponse.version; } /** * The SHA-256 hash of the encryption key used to encrypt the blob. This value is only returned * when the blob was encrypted with a customer-provided key. * * @readonly */ get encryptionKeySha256() { return this.originalResponse.encryptionKeySha256; } /** * If the request is to read a specified range and the x-ms-range-get-content-crc64 is set to * true, then the request returns a crc64 for the range, as long as the range size is less than * or equal to 4 MB. If both x-ms-range-get-content-crc64 & x-ms-range-get-content-md5 is * specified in the same request, it will fail with 400(Bad Request) */ get contentCrc64() { return this.originalResponse.contentCrc64; } /** * The response body as a browser Blob. * Always undefined in node.js. * * @readonly */ get blobBody() { return undefined; } /** * The response body as a node.js Readable stream. * Always undefined in the browser. * * It will parse avor data returned by blob query. * * @readonly */ get readableStreamBody() { return coreHttp.isNode ? this.blobDownloadStream : undefined; } /** * The HTTP response. */ get _response() { return this.originalResponse._response; } } // Copyright (c) Microsoft Corporation. /** * Represents the access tier on a blob. * For detailed information about block blob level tiering see {@link https://docs.microsoft.com/azure/storage/blobs/storage-blob-storage-tiers|Hot, cool and archive storage tiers.} */ exports.BlockBlobTier = void 0; (function (BlockBlobTier) { /** * Optimized for storing data that is accessed frequently. */ BlockBlobTier["Hot"] = "Hot"; /** * Optimized for storing data that is infrequently accessed and stored for at least 30 days. */ BlockBlobTier["Cool"] = "Cool"; /** * Optimized for storing data that is rarely accessed. */ BlockBlobTier["Cold"] = "Cold"; /** * Optimized for storing data that is rarely accessed and stored for at least 180 days * with flexible latency requirements (on the order of hours). */ BlockBlobTier["Archive"] = "Archive"; })(exports.BlockBlobTier || (exports.BlockBlobTier = {})); /** * Specifies the page blob tier to set the blob to. This is only applicable to page blobs on premium storage accounts. * Please see {@link https://docs.microsoft.com/azure/storage/storage-premium-storage#scalability-and-performance-targets|here} * for detailed information on the corresponding IOPS and throughput per PageBlobTier. */ exports.PremiumPageBlobTier = void 0; (function (PremiumPageBlobTier) { /** * P4 Tier. */ PremiumPageBlobTier["P4"] = "P4"; /** * P6 Tier. */ PremiumPageBlobTier["P6"] = "P6"; /** * P10 Tier. */ PremiumPageBlobTier["P10"] = "P10"; /** * P15 Tier. */ PremiumPageBlobTier["P15"] = "P15"; /** * P20 Tier. */ PremiumPageBlobTier["P20"] = "P20"; /** * P30 Tier. */ PremiumPageBlobTier["P30"] = "P30"; /** * P40 Tier. */ PremiumPageBlobTier["P40"] = "P40"; /** * P50 Tier. */ PremiumPageBlobTier["P50"] = "P50"; /** * P60 Tier. */ PremiumPageBlobTier["P60"] = "P60"; /** * P70 Tier. */ PremiumPageBlobTier["P70"] = "P70"; /** * P80 Tier. */ PremiumPageBlobTier["P80"] = "P80"; })(exports.PremiumPageBlobTier || (exports.PremiumPageBlobTier = {})); function toAccessTier(tier) { if (tier === undefined) { return undefined; } return tier; // No more check if string is a valid AccessTier, and left this to underlay logic to decide(service). } function ensureCpkIfSpecified(cpk, isHttps) { if (cpk && !isHttps) { throw new RangeError("Customer-provided encryption key must be used over HTTPS."); } if (cpk && !cpk.encryptionAlgorithm) { cpk.encryptionAlgorithm = EncryptionAlgorithmAES25; } } /** * Defines the known cloud audiences for Storage. */ exports.StorageBlobAudience = void 0; (function (StorageBlobAudience) { /** * The OAuth scope to use to retrieve an AAD token for Azure Storage. */ StorageBlobAudience["StorageOAuthScopes"] = "https://storage.azure.com/.default"; /** * The OAuth scope to use to retrieve an AAD token for Azure Disk. */ StorageBlobAudience["DiskComputeOAuthScopes"] = "https://disk.compute.azure.com/.default"; })(exports.StorageBlobAudience || (exports.StorageBlobAudience = {})); // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /** * Function that converts PageRange and ClearRange to a common Range object. * PageRange and ClearRange have start and end while Range offset and count * this function normalizes to Range. * @param response - Model PageBlob Range response */ function rangeResponseFromModel(response) { const pageRange = (response._response.parsedBody.pageRange || []).map((x) => ({ offset: x.start, count: x.end - x.start, })); const clearRange = (response._response.parsedBody.clearRange || []).map((x) => ({ offset: x.start, count: x.end - x.start, })); return Object.assign(Object.assign({}, response), { pageRange, clearRange, _response: Object.assign(Object.assign({}, response._response), { parsedBody: { pageRange, clearRange, } }) }); } // Copyright (c) Microsoft Corporation. /** * This is the poller returned by {@link BlobClient.beginCopyFromURL}. * This can not be instantiated directly outside of this package. * * @hidden */ class BlobBeginCopyFromUrlPoller extends coreLro.Poller { constructor(options) { const { blobClient, copySource, intervalInMs = 15000, onProgress, resumeFrom, startCopyFromURLOptions, } = options; let state; if (resumeFrom) { state = JSON.parse(resumeFrom).state; } const operation = makeBlobBeginCopyFromURLPollOperation(Object.assign(Object.assign({}, state), { blobClient, copySource, startCopyFromURLOptions })); super(operation); if (typeof onProgress === "function") { this.onProgress(onProgress); } this.intervalInMs = intervalInMs; } delay() { return coreHttp.delay(this.intervalInMs); } } /** * Note: Intentionally using function expression over arrow function expression * so that the function can be invoked with a different context. * This affects what `this` refers to. * @hidden */ const cancel = async function cancel(options = {}) { const state = this.state; const { copyId } = state; if (state.isCompleted) { return makeBlobBeginCopyFromURLPollOperation(state); } if (!copyId) { state.isCancelled = true; return makeBlobBeginCopyFromURLPollOperation(state); } // if abortCopyFromURL throws, it will bubble up to user's poller.cancelOperation call await state.blobClient.abortCopyFromURL(copyId, { abortSignal: options.abortSignal, }); state.isCancelled = true; return makeBlobBeginCopyFromURLPollOperation(state); }; /** * Note: Intentionally using function expression over arrow function expression * so that the function can be invoked with a different context. * This affects what `this` refers to. * @hidden */ const update = async function update(options = {}) { const state = this.state; const { blobClient, copySource, startCopyFromURLOptions } = state; if (!state.isStarted) { state.isStarted = true; const result = await blobClient.startCopyFromURL(copySource, startCopyFromURLOptions); // copyId is needed to abort state.copyId = result.copyId; if (result.copyStatus === "success") { state.result = result; state.isCompleted = true; } } else if (!state.isCompleted) { try { const result = await state.blobClient.getProperties({ abortSignal: options.abortSignal }); const { copyStatus, copyProgress } = result; const prevCopyProgress = state.copyProgress; if (copyProgress) { state.copyProgress = copyProgress; } if (copyStatus === "pending" && copyProgress !== prevCopyProgress && typeof options.fireProgress === "function") { // trigger in setTimeout, or swallow error? options.fireProgress(state); } else if (copyStatus === "success") { state.result = result; state.isCompleted = true; } else if (copyStatus === "failed") { state.error = new Error(`Blob copy failed with reason: "${result.copyStatusDescription || "unknown"}"`); state.isCompleted = true; } } catch (err) { state.error = err; state.isCompleted = true; } } return makeBlobBeginCopyFromURLPollOperation(state); }; /** * Note: Intentionally using function expression over arrow function expression * so that the function can be invoked with a different context. * This affects what `this` refers to. * @hidden */ const toString = function toString() { return JSON.stringify({ state: this.state }, (key, value) => { // remove blobClient from serialized state since a client can't be hydrated from this info. if (key === "blobClient") { return undefined; } return value; }); }; /** * Creates a poll operation given the provided state. * @hidden */ function makeBlobBeginCopyFromURLPollOperation(state) { return { state: Object.assign({}, state), cancel, toString, update, }; } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /** * Generate a range string. For example: * * "bytes=255-" or "bytes=0-511" * * @param iRange - */ function rangeToString(iRange) { if (iRange.offset < 0) { throw new RangeError(`Range.offset cannot be smaller than 0.`); } if (iRange.count && iRange.count <= 0) { throw new RangeError(`Range.count must be larger than 0. Leave it undefined if you want a range from offset to the end.`); } return iRange.count ? `bytes=${iRange.offset}-${iRange.offset + iRange.count - 1}` : `bytes=${iRange.offset}-`; } // Copyright (c) Microsoft Corporation. /** * States for Batch. */ var BatchStates; (function (BatchStates) { BatchStates[BatchStates["Good"] = 0] = "Good"; BatchStates[BatchStates["Error"] = 1] = "Error"; })(BatchStates || (BatchStates = {})); /** * Batch provides basic parallel execution with concurrency limits. * Will stop execute left operations when one of the executed operation throws an error. * But Batch cannot cancel ongoing operations, you need to cancel them by yourself. */ class Batch { /** * Creates an instance of Batch. * @param concurrency - */ constructor(concurrency = 5) { /** * Number of active operations under execution. */ this.actives = 0; /** * Number of completed operations under execution. */ this.completed = 0; /** * Offset of next operation to be executed. */ this.offset = 0; /** * Operation array to be executed. */ this.operations = []; /** * States of Batch. When an error happens, state will turn into error. * Batch will stop execute left operations. */ this.state = BatchStates.Good; if (concurrency < 1) { throw new RangeError("concurrency must be larger than 0"); } this.concurrency = concurrency; this.emitter = new events.EventEmitter(); } /** * Add a operation into queue. * * @param operation - */ addOperation(operation) { this.operations.push(async () => { try { this.actives++; await operation(); this.actives--; this.completed++; this.parallelExecute(); } catch (error) { this.emitter.emit("error", error); } }); } /** * Start execute operations in the queue. * */ async do() { if (this.operations.length === 0) { return Promise.resolve(); } this.parallelExecute(); return new Promise((resolve, reject) => { this.emitter.on("finish", resolve); this.emitter.on("error", (error) => { this.state = BatchStates.Error; reject(error); }); }); } /** * Get next operation to be executed. Return null when reaching ends. * */ nextOperation() { if (this.offset < this.operations.length) { return this.operations[this.offset++]; } return null; } /** * Start execute operations. One one the most important difference between * this method with do() is that do() wraps as an sync method. * */ parallelExecute() { if (this.state === BatchStates.Error) { return; } if (this.completed >= this.operations.length) { this.emitter.emit("finish"); return; } while (this.actives < this.concurrency) { const operation = this.nextOperation(); if (operation) { operation(); } else { return; } } } } // Copyright (c) Microsoft Corporation. /** * This class generates a readable stream from the data in an array of buffers. */ class BuffersStream extends stream.Readable { /** * Creates an instance of BuffersStream that will emit the data * contained in the array of buffers. * * @param buffers - Array of buffers containing the data * @param byteLength - The total length of data contained in the buffers */ constructor(buffers, byteLength, options) { super(options); this.buffers = buffers; this.byteLength = byteLength; this.byteOffsetInCurrentBuffer = 0; this.bufferIndex = 0; this.pushedBytesLength = 0; // check byteLength is no larger than buffers[] total length let buffersLength = 0; for (const buf of this.buffers) { buffersLength += buf.byteLength; } if (buffersLength < this.byteLength) { throw new Error("Data size shouldn't be larger than the total length of buffers."); } } /** * Internal _read() that will be called when the stream wants to pull more data in. * * @param size - Optional. The size of data to be read */ _read(size) { if (this.pushedBytesLength >= this.byteLength) { this.push(null); } if (!size) { size = this.readableHighWaterMark; } const outBuffers = []; let i = 0; while (i < size && this.pushedBytesLength < this.byteLength) { // The last buffer may be longer than the data it contains. const remainingDataInAllBuffers = this.byteLength - this.pushedBytesLength; const remainingCapacityInThisBuffer = this.buffers[this.bufferIndex].byteLength - this.byteOffsetInCurrentBuffer; const remaining = Math.min(remainingCapacityInThisBuffer, remainingDataInAllBuffers); if (remaining > size - i) { // chunkSize = size - i const end = this.byteOffsetInCurrentBuffer + size - i; outBuffers.push(this.buffers[this.bufferIndex].slice(this.byteOffsetInCurrentBuffer, end)); this.pushedBytesLength += size - i; this.byteOffsetInCurrentBuffer = end; i = size; break; } else { // chunkSize = remaining const end = this.byteOffsetInCurrentBuffer + remaining; outBuffers.push(this.buffers[this.bufferIndex].slice(this.byteOffsetInCurrentBuffer, end)); if (remaining === remainingCapacityInThisBuffer) { // this.buffers[this.bufferIndex] used up, shift to next one this.byteOffsetInCurrentBuffer = 0; this.bufferIndex++; } else { this.byteOffsetInCurrentBuffer = end; } this.pushedBytesLength += remaining; i += remaining; } } if (outBuffers.length > 1) { this.push(Buffer.concat(outBuffers)); } else if (outBuffers.length === 1) { this.push(outBuffers[0]); } } } // Copyright (c) Microsoft Corporation. /** * maxBufferLength is max size of each buffer in the pooled buffers. */ // Can't use import as Typescript doesn't recognize "buffer". const maxBufferLength = (__nccwpck_require__(14300).constants.MAX_LENGTH); /** * This class provides a buffer container which conceptually has no hard size limit. * It accepts a capacity, an array of input buffers and the total length of input data. * It will allocate an internal "buffer" of the capacity and fill the data in the input buffers * into the internal "buffer" serially with respect to the total length. * Then by calling PooledBuffer.getReadableStream(), you can get a readable stream * assembled from all the data in the internal "buffer". */ class PooledBuffer { constructor(capacity, buffers, totalLength) { /** * Internal buffers used to keep the data. * Each buffer has a length of the maxBufferLength except last one. */ this.buffers = []; this.capacity = capacity; this._size = 0; // allocate const bufferNum = Math.ceil(capacity / maxBufferLength); for (let i = 0; i < bufferNum; i++) { let len = i === bufferNum - 1 ? capacity % maxBufferLength : maxBufferLength; if (len === 0) { len = maxBufferLength; } this.buffers.push(Buffer.allocUnsafe(len)); } if (buffers) { this.fill(buffers, totalLength); } } /** * The size of the data contained in the pooled buffers. */ get size() { return this._size; } /** * Fill the internal buffers with data in the input buffers serially * with respect to the total length and the total capacity of the internal buffers. * Data copied will be shift out of the input buffers. * * @param buffers - Input buffers containing the data to be filled in the pooled buffer * @param totalLength - Total length of the data to be filled in. * */ fill(buffers, totalLength) { this._size = Math.min(this.capacity, totalLength); let i = 0, j = 0, targetOffset = 0, sourceOffset = 0, totalCopiedNum = 0; while (totalCopiedNum < this._size) { const source = buffers[i]; const target = this.buffers[j]; const copiedNum = source.copy(target, targetOffset, sourceOffset); totalCopiedNum += copiedNum; sourceOffset += copiedNum; targetOffset += copiedNum; if (sourceOffset === source.length) { i++; sourceOffset = 0; } if (targetOffset === target.length) { j++; targetOffset = 0; } } // clear copied from source buffers buffers.splice(0, i); if (buffers.length > 0) { buffers[0] = buffers[0].slice(sourceOffset); } } /** * Get the readable stream assembled from all the data in the internal buffers. * */ getReadableStream() { return new BuffersStream(this.buffers, this.size); } } // Copyright (c) Microsoft Corporation. /** * This class accepts a Node.js Readable stream as input, and keeps reading data * from the stream into the internal buffer structure, until it reaches maxBuffers. * Every available buffer will try to trigger outgoingHandler. * * The internal buffer structure includes an incoming buffer array, and a outgoing * buffer array. The incoming buffer array includes the "empty" buffers can be filled * with new incoming data. The outgoing array includes the filled buffers to be * handled by outgoingHandler. Every above buffer size is defined by parameter bufferSize. * * NUM_OF_ALL_BUFFERS = BUFFERS_IN_INCOMING + BUFFERS_IN_OUTGOING + BUFFERS_UNDER_HANDLING * * NUM_OF_ALL_BUFFERS lesser than or equal to maxBuffers * * PERFORMANCE IMPROVEMENT TIPS: * 1. Input stream highWaterMark is better to set a same value with bufferSize * parameter, which will avoid Buffer.concat() operations. * 2. concurrency should set a smaller value than maxBuffers, which is helpful to * reduce the possibility when a outgoing handler waits for the stream data. * in this situation, outgoing handlers are blocked. * Outgoing queue shouldn't be empty. */ class BufferScheduler { /** * Creates an instance of BufferScheduler. * * @param readable - A Node.js Readable stream * @param bufferSize - Buffer size of every maintained buffer * @param maxBuffers - How many buffers can be allocated * @param outgoingHandler - An async function scheduled to be * triggered when a buffer fully filled * with stream data * @param concurrency - Concurrency of executing outgoingHandlers (>0) * @param encoding - [Optional] Encoding of Readable stream when it's a string stream */ constructor(readable, bufferSize, maxBuffers, outgoingHandler, concurrency, encoding) { /** * An internal event emitter. */ this.emitter = new events.EventEmitter(); /** * An internal offset marker to track data offset in bytes of next outgoingHandler. */ this.offset = 0; /** * An internal marker to track whether stream is end. */ this.isStreamEnd = false; /** * An internal marker to track whether stream or outgoingHandler returns error. */ this.isError = false; /** * How many handlers are executing. */ this.executingOutgoingHandlers = 0; /** * How many buffers have been allocated. */ this.numBuffers = 0; /** * Because this class doesn't know how much data every time stream pops, which * is defined by highWaterMarker of the stream. So BufferScheduler will cache * data received from the stream, when data in unresolvedDataArray exceeds the * blockSize defined, it will try to concat a blockSize of buffer, fill into available * buffers from incoming and push to outgoing array. */ this.unresolvedDataArray = []; /** * How much data consisted in unresolvedDataArray. */ this.unresolvedLength = 0; /** * The array includes all the available buffers can be used to fill data from stream. */ this.incoming = []; /** * The array (queue) includes all the buffers filled from stream data. */ this.outgoing = []; if (bufferSize <= 0) { throw new RangeError(`bufferSize must be larger than 0, current is ${bufferSize}`); } if (maxBuffers <= 0) { throw new RangeError(`maxBuffers must be larger than 0, current is ${maxBuffers}`); } if (concurrency <= 0) { throw new RangeError(`concurrency must be larger than 0, current is ${concurrency}`); } this.bufferSize = bufferSize; this.maxBuffers = maxBuffers; this.readable = readable; this.outgoingHandler = outgoingHandler; this.concurrency = concurrency; this.encoding = encoding; } /** * Start the scheduler, will return error when stream of any of the outgoingHandlers * returns error. * */ async do() { return new Promise((resolve, reject) => { this.readable.on("data", (data) => { data = typeof data === "string" ? Buffer.from(data, this.encoding) : data; this.appendUnresolvedData(data); if (!this.resolveData()) { this.readable.pause(); } }); this.readable.on("error", (err) => { this.emitter.emit("error", err); }); this.readable.on("end", () => { this.isStreamEnd = true; this.emitter.emit("checkEnd"); }); this.emitter.on("error", (err) => { this.isError = true; this.readable.pause(); reject(err); }); this.emitter.on("checkEnd", () => { if (this.outgoing.length > 0) { this.triggerOutgoingHandlers(); return; } if (this.isStreamEnd && this.executingOutgoingHandlers === 0) { if (this.unresolvedLength > 0 && this.unresolvedLength < this.bufferSize) { const buffer = this.shiftBufferFromUnresolvedDataArray(); this.outgoingHandler(() => buffer.getReadableStream(), buffer.size, this.offset) .then(resolve) .catch(reject); } else if (this.unresolvedLength >= this.bufferSize) { return; } else { resolve(); } } }); }); } /** * Insert a new data into unresolved array. * * @param data - */ appendUnresolvedData(data) { this.unresolvedDataArray.push(data); this.unresolvedLength += data.length; } /** * Try to shift a buffer with size in blockSize. The buffer returned may be less * than blockSize when data in unresolvedDataArray is less than bufferSize. * */ shiftBufferFromUnresolvedDataArray(buffer) { if (!buffer) { buffer = new PooledBuffer(this.bufferSize, this.unresolvedDataArray, this.unresolvedLength); } else { buffer.fill(this.unresolvedDataArray, this.unresolvedLength); } this.unresolvedLength -= buffer.size; return buffer; } /** * Resolve data in unresolvedDataArray. For every buffer with size in blockSize * shifted, it will try to get (or allocate a buffer) from incoming, and fill it, * then push it into outgoing to be handled by outgoing handler. * * Return false when available buffers in incoming are not enough, else true. * * @returns Return false when buffers in incoming are not enough, else true. */ resolveData() { while (this.unresolvedLength >= this.bufferSize) { let buffer; if (this.incoming.length > 0) { buffer = this.incoming.shift(); this.shiftBufferFromUnresolvedDataArray(buffer); } else { if (this.numBuffers < this.maxBuffers) { buffer = this.shiftBufferFromUnresolvedDataArray(); this.numBuffers++; } else { // No available buffer, wait for buffer returned return false; } } this.outgoing.push(buffer); this.triggerOutgoingHandlers(); } return true; } /** * Try to trigger a outgoing handler for every buffer in outgoing. Stop when * concurrency reaches. */ async triggerOutgoingHandlers() { let buffer; do { if (this.executingOutgoingHandlers >= this.concurrency) { return; } buffer = this.outgoing.shift(); if (buffer) { this.triggerOutgoingHandler(buffer); } } while (buffer); } /** * Trigger a outgoing handler for a buffer shifted from outgoing. * * @param buffer - */ async triggerOutgoingHandler(buffer) { const bufferLength = buffer.size; this.executingOutgoingHandlers++; this.offset += bufferLength; try { await this.outgoingHandler(() => buffer.getReadableStream(), bufferLength, this.offset - bufferLength); } catch (err) { this.emitter.emit("error", err); return; } this.executingOutgoingHandlers--; this.reuseBuffer(buffer); this.emitter.emit("checkEnd"); } /** * Return buffer used by outgoing handler into incoming. * * @param buffer - */ reuseBuffer(buffer) { this.incoming.push(buffer); if (!this.isError && this.resolveData() && !this.isStreamEnd) { this.readable.resume(); } } } // Copyright (c) Microsoft Corporation. /** * Reads a readable stream into buffer. Fill the buffer from offset to end. * * @param stream - A Node.js Readable stream * @param buffer - Buffer to be filled, length must greater than or equal to offset * @param offset - From which position in the buffer to be filled, inclusive * @param end - To which position in the buffer to be filled, exclusive * @param encoding - Encoding of the Readable stream */ async function streamToBuffer(stream, buffer, offset, end, encoding) { let pos = 0; // Position in stream const count = end - offset; // Total amount of data needed in stream return new Promise((resolve, reject) => { const timeout = setTimeout(() => reject(new Error(`The operation cannot be completed in timeout.`)), REQUEST_TIMEOUT); stream.on("readable", () => { if (pos >= count) { clearTimeout(timeout); resolve(); return; } let chunk = stream.read(); if (!chunk) { return; } if (typeof chunk === "string") { chunk = Buffer.from(chunk, encoding); } // How much data needed in this chunk const chunkLength = pos + chunk.length > count ? count - pos : chunk.length; buffer.fill(chunk.slice(0, chunkLength), offset + pos, offset + pos + chunkLength); pos += chunkLength; }); stream.on("end", () => { clearTimeout(timeout); if (pos < count) { reject(new Error(`Stream drains before getting enough data needed. Data read: ${pos}, data need: ${count}`)); } resolve(); }); stream.on("error", (msg) => { clearTimeout(timeout); reject(msg); }); }); } /** * Reads a readable stream into buffer entirely. * * @param stream - A Node.js Readable stream * @param buffer - Buffer to be filled, length must greater than or equal to offset * @param encoding - Encoding of the Readable stream * @returns with the count of bytes read. * @throws `RangeError` If buffer size is not big enough. */ async function streamToBuffer2(stream, buffer, encoding) { let pos = 0; // Position in stream const bufferSize = buffer.length; return new Promise((resolve, reject) => { stream.on("readable", () => { let chunk = stream.read(); if (!chunk) { return; } if (typeof chunk === "string") { chunk = Buffer.from(chunk, encoding); } if (pos + chunk.length > bufferSize) { reject(new Error(`Stream exceeds buffer size. Buffer size: ${bufferSize}`)); return; } buffer.fill(chunk, pos, pos + chunk.length); pos += chunk.length; }); stream.on("end", () => { resolve(pos); }); stream.on("error", reject); }); } /** * ONLY AVAILABLE IN NODE.JS RUNTIME. * * Writes the content of a readstream to a local file. Returns a Promise which is completed after the file handle is closed. * * @param rs - The read stream. * @param file - Destination file path. */ async function readStreamToLocalFile(rs, file) { return new Promise((resolve, reject) => { const ws = fs__namespace.createWriteStream(file); rs.on("error", (err) => { reject(err); }); ws.on("error", (err) => { reject(err); }); ws.on("close", resolve); rs.pipe(ws); }); } /** * ONLY AVAILABLE IN NODE.JS RUNTIME. * * Promisified version of fs.stat(). */ const fsStat = util__namespace.promisify(fs__namespace.stat); const fsCreateReadStream = fs__namespace.createReadStream; /** * A BlobClient represents a URL to an Azure Storage blob; the blob may be a block blob, * append blob, or page blob. */ class BlobClient extends StorageClient { constructor(urlOrConnectionString, credentialOrPipelineOrContainerName, blobNameOrOptions, // Legacy, no fix for eslint error without breaking. Disable it for this interface. /* eslint-disable-next-line @azure/azure-sdk/ts-naming-options*/ options) { options = options || {}; let pipeline; let url; if (isPipelineLike(credentialOrPipelineOrContainerName)) { // (url: string, pipeline: Pipeline) url = urlOrConnectionString; pipeline = credentialOrPipelineOrContainerName; } else if ((coreHttp.isNode && credentialOrPipelineOrContainerName instanceof StorageSharedKeyCredential) || credentialOrPipelineOrContainerName instanceof AnonymousCredential || coreHttp.isTokenCredential(credentialOrPipelineOrContainerName)) { // (url: string, credential?: StorageSharedKeyCredential | AnonymousCredential | TokenCredential, options?: StoragePipelineOptions) url = urlOrConnectionString; options = blobNameOrOptions; pipeline = newPipeline(credentialOrPipelineOrContainerName, options); } else if (!credentialOrPipelineOrContainerName && typeof credentialOrPipelineOrContainerName !== "string") { // (url: string, credential?: StorageSharedKeyCredential | AnonymousCredential | TokenCredential, options?: StoragePipelineOptions) // The second parameter is undefined. Use anonymous credential. url = urlOrConnectionString; if (blobNameOrOptions && typeof blobNameOrOptions !== "string") { options = blobNameOrOptions; } pipeline = newPipeline(new AnonymousCredential(), options); } else if (credentialOrPipelineOrContainerName && typeof credentialOrPipelineOrContainerName === "string" && blobNameOrOptions && typeof blobNameOrOptions === "string") { // (connectionString: string, containerName: string, blobName: string, options?: StoragePipelineOptions) const containerName = credentialOrPipelineOrContainerName; const blobName = blobNameOrOptions; const extractedCreds = extractConnectionStringParts(urlOrConnectionString); if (extractedCreds.kind === "AccountConnString") { if (coreHttp.isNode) { const sharedKeyCredential = new StorageSharedKeyCredential(extractedCreds.accountName, extractedCreds.accountKey); url = appendToURLPath(appendToURLPath(extractedCreds.url, encodeURIComponent(containerName)), encodeURIComponent(blobName)); if (!options.proxyOptions) { options.proxyOptions = coreHttp.getDefaultProxySettings(extractedCreds.proxyUri); } pipeline = newPipeline(sharedKeyCredential, options); } else { throw new Error("Account connection string is only supported in Node.js environment"); } } else if (extractedCreds.kind === "SASConnString") { url = appendToURLPath(appendToURLPath(extractedCreds.url, encodeURIComponent(containerName)), encodeURIComponent(blobName)) + "?" + extractedCreds.accountSas; pipeline = newPipeline(new AnonymousCredential(), options); } else { throw new Error("Connection string must be either an Account connection string or a SAS connection string"); } } else { throw new Error("Expecting non-empty strings for containerName and blobName parameters"); } super(url, pipeline); ({ blobName: this._name, containerName: this._containerName } = this.getBlobAndContainerNamesFromUrl()); this.blobContext = new Blob$1(this.storageClientContext); this._snapshot = getURLParameter(this.url, URLConstants.Parameters.SNAPSHOT); this._versionId = getURLParameter(this.url, URLConstants.Parameters.VERSIONID); } /** * The name of the blob. */ get name() { return this._name; } /** * The name of the storage container the blob is associated with. */ get containerName() { return this._containerName; } /** * Creates a new BlobClient object identical to the source but with the specified snapshot timestamp. * Provide "" will remove the snapshot and return a Client to the base blob. * * @param snapshot - The snapshot timestamp. * @returns A new BlobClient object identical to the source but with the specified snapshot timestamp */ withSnapshot(snapshot) { return new BlobClient(setURLParameter(this.url, URLConstants.Parameters.SNAPSHOT, snapshot.length === 0 ? undefined : snapshot), this.pipeline); } /** * Creates a new BlobClient object pointing to a version of this blob. * Provide "" will remove the versionId and return a Client to the base blob. * * @param versionId - The versionId. * @returns A new BlobClient object pointing to the version of this blob. */ withVersion(versionId) { return new BlobClient(setURLParameter(this.url, URLConstants.Parameters.VERSIONID, versionId.length === 0 ? undefined : versionId), this.pipeline); } /** * Creates a AppendBlobClient object. * */ getAppendBlobClient() { return new AppendBlobClient(this.url, this.pipeline); } /** * Creates a BlockBlobClient object. * */ getBlockBlobClient() { return new BlockBlobClient(this.url, this.pipeline); } /** * Creates a PageBlobClient object. * */ getPageBlobClient() { return new PageBlobClient(this.url, this.pipeline); } /** * Reads or downloads a blob from the system, including its metadata and properties. * You can also call Get Blob to read a snapshot. * * * In Node.js, data returns in a Readable stream readableStreamBody * * In browsers, data returns in a promise blobBody * * @see https://docs.microsoft.com/en-us/rest/api/storageservices/get-blob * * @param offset - From which position of the blob to download, greater than or equal to 0 * @param count - How much data to be downloaded, greater than 0. Will download to the end when undefined * @param options - Optional options to Blob Download operation. * * * Example usage (Node.js): * * ```js * // Download and convert a blob to a string * const downloadBlockBlobResponse = await blobClient.download(); * const downloaded = await streamToBuffer(downloadBlockBlobResponse.readableStreamBody); * console.log("Downloaded blob content:", downloaded.toString()); * * async function streamToBuffer(readableStream) { * return new Promise((resolve, reject) => { * const chunks = []; * readableStream.on("data", (data) => { * chunks.push(data instanceof Buffer ? data : Buffer.from(data)); * }); * readableStream.on("end", () => { * resolve(Buffer.concat(chunks)); * }); * readableStream.on("error", reject); * }); * } * ``` * * Example usage (browser): * * ```js * // Download and convert a blob to a string * const downloadBlockBlobResponse = await blobClient.download(); * const downloaded = await blobToString(await downloadBlockBlobResponse.blobBody); * console.log( * "Downloaded blob content", * downloaded * ); * * async function blobToString(blob: Blob): Promise { * const fileReader = new FileReader(); * return new Promise((resolve, reject) => { * fileReader.onloadend = (ev: any) => { * resolve(ev.target!.result); * }; * fileReader.onerror = reject; * fileReader.readAsText(blob); * }); * } * ``` */ async download(offset = 0, count, options = {}) { var _a; options.conditions = options.conditions || {}; options.conditions = options.conditions || {}; ensureCpkIfSpecified(options.customerProvidedKey, this.isHttps); const { span, updatedOptions } = createSpan("BlobClient-download", options); try { const res = await this.blobContext.download(Object.assign({ abortSignal: options.abortSignal, leaseAccessConditions: options.conditions, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }), requestOptions: { onDownloadProgress: coreHttp.isNode ? undefined : options.onProgress, // for Node.js, progress is reported by RetriableReadableStream }, range: offset === 0 && !count ? undefined : rangeToString({ offset, count }), rangeGetContentMD5: options.rangeGetContentMD5, rangeGetContentCRC64: options.rangeGetContentCrc64, snapshot: options.snapshot, cpkInfo: options.customerProvidedKey }, convertTracingToRequestOptionsBase(updatedOptions))); const wrappedRes = Object.assign(Object.assign({}, res), { _response: res._response, objectReplicationDestinationPolicyId: res.objectReplicationPolicyId, objectReplicationSourceProperties: parseObjectReplicationRecord(res.objectReplicationRules) }); // Return browser response immediately if (!coreHttp.isNode) { return wrappedRes; } // We support retrying when download stream unexpected ends in Node.js runtime // Following code shouldn't be bundled into browser build, however some // bundlers may try to bundle following code and "FileReadResponse.ts". // In this case, "FileDownloadResponse.browser.ts" will be used as a shim of "FileDownloadResponse.ts" // The config is in package.json "browser" field if (options.maxRetryRequests === undefined || options.maxRetryRequests < 0) { // TODO: Default value or make it a required parameter? options.maxRetryRequests = DEFAULT_MAX_DOWNLOAD_RETRY_REQUESTS; } if (res.contentLength === undefined) { throw new RangeError(`File download response doesn't contain valid content length header`); } if (!res.etag) { throw new RangeError(`File download response doesn't contain valid etag header`); } return new BlobDownloadResponse(wrappedRes, async (start) => { var _a; const updatedDownloadOptions = { leaseAccessConditions: options.conditions, modifiedAccessConditions: { ifMatch: options.conditions.ifMatch || res.etag, ifModifiedSince: options.conditions.ifModifiedSince, ifNoneMatch: options.conditions.ifNoneMatch, ifUnmodifiedSince: options.conditions.ifUnmodifiedSince, ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions, }, range: rangeToString({ count: offset + res.contentLength - start, offset: start, }), rangeGetContentMD5: options.rangeGetContentMD5, rangeGetContentCRC64: options.rangeGetContentCrc64, snapshot: options.snapshot, cpkInfo: options.customerProvidedKey, }; // Debug purpose only // console.log( // `Read from internal stream, range: ${ // updatedOptions.range // }, options: ${JSON.stringify(updatedOptions)}` // ); return (await this.blobContext.download(Object.assign({ abortSignal: options.abortSignal }, updatedDownloadOptions))).readableStreamBody; }, offset, res.contentLength, { maxRetryRequests: options.maxRetryRequests, onProgress: options.onProgress, }); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Returns true if the Azure blob resource represented by this client exists; false otherwise. * * NOTE: use this function with care since an existing blob might be deleted by other clients or * applications. Vice versa new blobs might be added by other clients or applications after this * function completes. * * @param options - options to Exists operation. */ async exists(options = {}) { const { span, updatedOptions } = createSpan("BlobClient-exists", options); try { ensureCpkIfSpecified(options.customerProvidedKey, this.isHttps); await this.getProperties({ abortSignal: options.abortSignal, customerProvidedKey: options.customerProvidedKey, conditions: options.conditions, tracingOptions: updatedOptions.tracingOptions, }); return true; } catch (e) { if (e.statusCode === 404) { // Expected exception when checking blob existence return false; } else if (e.statusCode === 409 && (e.details.errorCode === BlobUsesCustomerSpecifiedEncryptionMsg || e.details.errorCode === BlobDoesNotUseCustomerSpecifiedEncryption)) { // Expected exception when checking blob existence return true; } span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Returns all user-defined metadata, standard HTTP properties, and system properties * for the blob. It does not return the content of the blob. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/get-blob-properties * * WARNING: The `metadata` object returned in the response will have its keys in lowercase, even if * they originally contained uppercase characters. This differs from the metadata keys returned by * the methods of {@link ContainerClient} that list blobs using the `includeMetadata` option, which * will retain their original casing. * * @param options - Optional options to Get Properties operation. */ async getProperties(options = {}) { var _a; const { span, updatedOptions } = createSpan("BlobClient-getProperties", options); try { options.conditions = options.conditions || {}; ensureCpkIfSpecified(options.customerProvidedKey, this.isHttps); const res = await this.blobContext.getProperties(Object.assign({ abortSignal: options.abortSignal, leaseAccessConditions: options.conditions, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }), cpkInfo: options.customerProvidedKey }, convertTracingToRequestOptionsBase(updatedOptions))); return Object.assign(Object.assign({}, res), { _response: res._response, objectReplicationDestinationPolicyId: res.objectReplicationPolicyId, objectReplicationSourceProperties: parseObjectReplicationRecord(res.objectReplicationRules) }); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Marks the specified blob or snapshot for deletion. The blob is later deleted * during garbage collection. Note that in order to delete a blob, you must delete * all of its snapshots. You can delete both at the same time with the Delete * Blob operation. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/delete-blob * * @param options - Optional options to Blob Delete operation. */ async delete(options = {}) { var _a; const { span, updatedOptions } = createSpan("BlobClient-delete", options); options.conditions = options.conditions || {}; try { return await this.blobContext.delete(Object.assign({ abortSignal: options.abortSignal, deleteSnapshots: options.deleteSnapshots, leaseAccessConditions: options.conditions, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }) }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Marks the specified blob or snapshot for deletion if it exists. The blob is later deleted * during garbage collection. Note that in order to delete a blob, you must delete * all of its snapshots. You can delete both at the same time with the Delete * Blob operation. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/delete-blob * * @param options - Optional options to Blob Delete operation. */ async deleteIfExists(options = {}) { var _a, _b; const { span, updatedOptions } = createSpan("BlobClient-deleteIfExists", options); try { const res = await this.delete(updatedOptions); return Object.assign(Object.assign({ succeeded: true }, res), { _response: res._response }); } catch (e) { if (((_a = e.details) === null || _a === void 0 ? void 0 : _a.errorCode) === "BlobNotFound") { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: "Expected exception when deleting a blob or snapshot only if it exists.", }); return Object.assign(Object.assign({ succeeded: false }, (_b = e.response) === null || _b === void 0 ? void 0 : _b.parsedHeaders), { _response: e.response }); } span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Restores the contents and metadata of soft deleted blob and any associated * soft deleted snapshots. Undelete Blob is supported only on version 2017-07-29 * or later. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/undelete-blob * * @param options - Optional options to Blob Undelete operation. */ async undelete(options = {}) { const { span, updatedOptions } = createSpan("BlobClient-undelete", options); try { return await this.blobContext.undelete(Object.assign({ abortSignal: options.abortSignal }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Sets system properties on the blob. * * If no value provided, or no value provided for the specified blob HTTP headers, * these blob HTTP headers without a value will be cleared. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/set-blob-properties * * @param blobHTTPHeaders - If no value provided, or no value provided for * the specified blob HTTP headers, these blob HTTP * headers without a value will be cleared. * A common header to set is `blobContentType` * enabling the browser to provide functionality * based on file type. * @param options - Optional options to Blob Set HTTP Headers operation. */ async setHTTPHeaders(blobHTTPHeaders, options = {}) { var _a; const { span, updatedOptions } = createSpan("BlobClient-setHTTPHeaders", options); options.conditions = options.conditions || {}; try { ensureCpkIfSpecified(options.customerProvidedKey, this.isHttps); return await this.blobContext.setHttpHeaders(Object.assign({ abortSignal: options.abortSignal, blobHttpHeaders: blobHTTPHeaders, leaseAccessConditions: options.conditions, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }) }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Sets user-defined metadata for the specified blob as one or more name-value pairs. * * If no option provided, or no metadata defined in the parameter, the blob * metadata will be removed. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/set-blob-metadata * * @param metadata - Replace existing metadata with this value. * If no value provided the existing metadata will be removed. * @param options - Optional options to Set Metadata operation. */ async setMetadata(metadata, options = {}) { var _a; const { span, updatedOptions } = createSpan("BlobClient-setMetadata", options); options.conditions = options.conditions || {}; try { ensureCpkIfSpecified(options.customerProvidedKey, this.isHttps); return await this.blobContext.setMetadata(Object.assign({ abortSignal: options.abortSignal, leaseAccessConditions: options.conditions, metadata, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }), cpkInfo: options.customerProvidedKey, encryptionScope: options.encryptionScope }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Sets tags on the underlying blob. * A blob can have up to 10 tags. Tag keys must be between 1 and 128 characters. Tag values must be between 0 and 256 characters. * Valid tag key and value characters include lower and upper case letters, digits (0-9), * space (' '), plus ('+'), minus ('-'), period ('.'), foward slash ('/'), colon (':'), equals ('='), and underscore ('_'). * * @param tags - * @param options - */ async setTags(tags, options = {}) { var _a; const { span, updatedOptions } = createSpan("BlobClient-setTags", options); try { return await this.blobContext.setTags(Object.assign(Object.assign({ abortSignal: options.abortSignal, leaseAccessConditions: options.conditions, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }) }, convertTracingToRequestOptionsBase(updatedOptions)), { tags: toBlobTags(tags) })); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Gets the tags associated with the underlying blob. * * @param options - */ async getTags(options = {}) { var _a; const { span, updatedOptions } = createSpan("BlobClient-getTags", options); try { const response = await this.blobContext.getTags(Object.assign({ abortSignal: options.abortSignal, leaseAccessConditions: options.conditions, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }) }, convertTracingToRequestOptionsBase(updatedOptions))); const wrappedResponse = Object.assign(Object.assign({}, response), { _response: response._response, tags: toTags({ blobTagSet: response.blobTagSet }) || {} }); return wrappedResponse; } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Get a {@link BlobLeaseClient} that manages leases on the blob. * * @param proposeLeaseId - Initial proposed lease Id. * @returns A new BlobLeaseClient object for managing leases on the blob. */ getBlobLeaseClient(proposeLeaseId) { return new BlobLeaseClient(this, proposeLeaseId); } /** * Creates a read-only snapshot of a blob. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/snapshot-blob * * @param options - Optional options to the Blob Create Snapshot operation. */ async createSnapshot(options = {}) { var _a; const { span, updatedOptions } = createSpan("BlobClient-createSnapshot", options); options.conditions = options.conditions || {}; try { ensureCpkIfSpecified(options.customerProvidedKey, this.isHttps); return await this.blobContext.createSnapshot(Object.assign({ abortSignal: options.abortSignal, leaseAccessConditions: options.conditions, metadata: options.metadata, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }), cpkInfo: options.customerProvidedKey, encryptionScope: options.encryptionScope }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Asynchronously copies a blob to a destination within the storage account. * This method returns a long running operation poller that allows you to wait * indefinitely until the copy is completed. * You can also cancel a copy before it is completed by calling `cancelOperation` on the poller. * Note that the onProgress callback will not be invoked if the operation completes in the first * request, and attempting to cancel a completed copy will result in an error being thrown. * * In version 2012-02-12 and later, the source for a Copy Blob operation can be * a committed blob in any Azure storage account. * Beginning with version 2015-02-21, the source for a Copy Blob operation can be * an Azure file in any Azure storage account. * Only storage accounts created on or after June 7th, 2012 allow the Copy Blob * operation to copy from another storage account. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/copy-blob * * Example using automatic polling: * * ```js * const copyPoller = await blobClient.beginCopyFromURL('url'); * const result = await copyPoller.pollUntilDone(); * ``` * * Example using manual polling: * * ```js * const copyPoller = await blobClient.beginCopyFromURL('url'); * while (!poller.isDone()) { * await poller.poll(); * } * const result = copyPoller.getResult(); * ``` * * Example using progress updates: * * ```js * const copyPoller = await blobClient.beginCopyFromURL('url', { * onProgress(state) { * console.log(`Progress: ${state.copyProgress}`); * } * }); * const result = await copyPoller.pollUntilDone(); * ``` * * Example using a changing polling interval (default 15 seconds): * * ```js * const copyPoller = await blobClient.beginCopyFromURL('url', { * intervalInMs: 1000 // poll blob every 1 second for copy progress * }); * const result = await copyPoller.pollUntilDone(); * ``` * * Example using copy cancellation: * * ```js * const copyPoller = await blobClient.beginCopyFromURL('url'); * // cancel operation after starting it. * try { * await copyPoller.cancelOperation(); * // calls to get the result now throw PollerCancelledError * await copyPoller.getResult(); * } catch (err) { * if (err.name === 'PollerCancelledError') { * console.log('The copy was cancelled.'); * } * } * ``` * * @param copySource - url to the source Azure Blob/File. * @param options - Optional options to the Blob Start Copy From URL operation. */ async beginCopyFromURL(copySource, options = {}) { const client = { abortCopyFromURL: (...args) => this.abortCopyFromURL(...args), getProperties: (...args) => this.getProperties(...args), startCopyFromURL: (...args) => this.startCopyFromURL(...args), }; const poller = new BlobBeginCopyFromUrlPoller({ blobClient: client, copySource, intervalInMs: options.intervalInMs, onProgress: options.onProgress, resumeFrom: options.resumeFrom, startCopyFromURLOptions: options, }); // Trigger the startCopyFromURL call by calling poll. // Any errors from this method should be surfaced to the user. await poller.poll(); return poller; } /** * Aborts a pending asynchronous Copy Blob operation, and leaves a destination blob with zero * length and full metadata. Version 2012-02-12 and newer. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/abort-copy-blob * * @param copyId - Id of the Copy From URL operation. * @param options - Optional options to the Blob Abort Copy From URL operation. */ async abortCopyFromURL(copyId, options = {}) { const { span, updatedOptions } = createSpan("BlobClient-abortCopyFromURL", options); try { return await this.blobContext.abortCopyFromURL(copyId, Object.assign({ abortSignal: options.abortSignal, leaseAccessConditions: options.conditions }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * The synchronous Copy From URL operation copies a blob or an internet resource to a new blob. It will not * return a response until the copy is complete. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/copy-blob-from-url * * @param copySource - The source URL to copy from, Shared Access Signature(SAS) maybe needed for authentication * @param options - */ async syncCopyFromURL(copySource, options = {}) { var _a, _b, _c; const { span, updatedOptions } = createSpan("BlobClient-syncCopyFromURL", options); options.conditions = options.conditions || {}; options.sourceConditions = options.sourceConditions || {}; try { return await this.blobContext.copyFromURL(copySource, Object.assign({ abortSignal: options.abortSignal, metadata: options.metadata, leaseAccessConditions: options.conditions, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }), sourceModifiedAccessConditions: { sourceIfMatch: options.sourceConditions.ifMatch, sourceIfModifiedSince: options.sourceConditions.ifModifiedSince, sourceIfNoneMatch: options.sourceConditions.ifNoneMatch, sourceIfUnmodifiedSince: options.sourceConditions.ifUnmodifiedSince, }, sourceContentMD5: options.sourceContentMD5, copySourceAuthorization: httpAuthorizationToString(options.sourceAuthorization), tier: toAccessTier(options.tier), blobTagsString: toBlobTagsString(options.tags), immutabilityPolicyExpiry: (_b = options.immutabilityPolicy) === null || _b === void 0 ? void 0 : _b.expiriesOn, immutabilityPolicyMode: (_c = options.immutabilityPolicy) === null || _c === void 0 ? void 0 : _c.policyMode, legalHold: options.legalHold, encryptionScope: options.encryptionScope, copySourceTags: options.copySourceTags }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Sets the tier on a blob. The operation is allowed on a page blob in a premium * storage account and on a block blob in a blob storage account (locally redundant * storage only). A premium page blob's tier determines the allowed size, IOPS, * and bandwidth of the blob. A block blob's tier determines Hot/Cool/Archive * storage type. This operation does not update the blob's ETag. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/set-blob-tier * * @param tier - The tier to be set on the blob. Valid values are Hot, Cool, or Archive. * @param options - Optional options to the Blob Set Tier operation. */ async setAccessTier(tier, options = {}) { var _a; const { span, updatedOptions } = createSpan("BlobClient-setAccessTier", options); try { return await this.blobContext.setTier(toAccessTier(tier), Object.assign({ abortSignal: options.abortSignal, leaseAccessConditions: options.conditions, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }), rehydratePriority: options.rehydratePriority }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } async downloadToBuffer(param1, param2, param3, param4 = {}) { let buffer; let offset = 0; let count = 0; let options = param4; if (param1 instanceof Buffer) { buffer = param1; offset = param2 || 0; count = typeof param3 === "number" ? param3 : 0; } else { offset = typeof param1 === "number" ? param1 : 0; count = typeof param2 === "number" ? param2 : 0; options = param3 || {}; } const { span, updatedOptions } = createSpan("BlobClient-downloadToBuffer", options); try { if (!options.blockSize) { options.blockSize = 0; } if (options.blockSize < 0) { throw new RangeError("blockSize option must be >= 0"); } if (options.blockSize === 0) { options.blockSize = DEFAULT_BLOB_DOWNLOAD_BLOCK_BYTES; } if (offset < 0) { throw new RangeError("offset option must be >= 0"); } if (count && count <= 0) { throw new RangeError("count option must be greater than 0"); } if (!options.conditions) { options.conditions = {}; } // Customer doesn't specify length, get it if (!count) { const response = await this.getProperties(Object.assign(Object.assign({}, options), { tracingOptions: Object.assign(Object.assign({}, options.tracingOptions), convertTracingToRequestOptionsBase(updatedOptions)) })); count = response.contentLength - offset; if (count < 0) { throw new RangeError(`offset ${offset} shouldn't be larger than blob size ${response.contentLength}`); } } // Allocate the buffer of size = count if the buffer is not provided if (!buffer) { try { buffer = Buffer.alloc(count); } catch (error) { throw new Error(`Unable to allocate the buffer of size: ${count}(in bytes). Please try passing your own buffer to the "downloadToBuffer" method or try using other methods like "download" or "downloadToFile".\t ${error.message}`); } } if (buffer.length < count) { throw new RangeError(`The buffer's size should be equal to or larger than the request count of bytes: ${count}`); } let transferProgress = 0; const batch = new Batch(options.concurrency); for (let off = offset; off < offset + count; off = off + options.blockSize) { batch.addOperation(async () => { // Exclusive chunk end position let chunkEnd = offset + count; if (off + options.blockSize < chunkEnd) { chunkEnd = off + options.blockSize; } const response = await this.download(off, chunkEnd - off, { abortSignal: options.abortSignal, conditions: options.conditions, maxRetryRequests: options.maxRetryRequestsPerBlock, customerProvidedKey: options.customerProvidedKey, tracingOptions: Object.assign(Object.assign({}, options.tracingOptions), convertTracingToRequestOptionsBase(updatedOptions)), }); const stream = response.readableStreamBody; await streamToBuffer(stream, buffer, off - offset, chunkEnd - offset); // Update progress after block is downloaded, in case of block trying // Could provide finer grained progress updating inside HTTP requests, // only if convenience layer download try is enabled transferProgress += chunkEnd - off; if (options.onProgress) { options.onProgress({ loadedBytes: transferProgress }); } }); } await batch.do(); return buffer; } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * ONLY AVAILABLE IN NODE.JS RUNTIME. * * Downloads an Azure Blob to a local file. * Fails if the the given file path already exits. * Offset and count are optional, pass 0 and undefined respectively to download the entire blob. * * @param filePath - * @param offset - From which position of the block blob to download. * @param count - How much data to be downloaded. Will download to the end when passing undefined. * @param options - Options to Blob download options. * @returns The response data for blob download operation, * but with readableStreamBody set to undefined since its * content is already read and written into a local file * at the specified path. */ async downloadToFile(filePath, offset = 0, count, options = {}) { const { span, updatedOptions } = createSpan("BlobClient-downloadToFile", options); try { const response = await this.download(offset, count, Object.assign(Object.assign({}, options), { tracingOptions: Object.assign(Object.assign({}, options.tracingOptions), convertTracingToRequestOptionsBase(updatedOptions)) })); if (response.readableStreamBody) { await readStreamToLocalFile(response.readableStreamBody, filePath); } // The stream is no longer accessible so setting it to undefined. response.blobDownloadStream = undefined; return response; } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } getBlobAndContainerNamesFromUrl() { let containerName; let blobName; try { // URL may look like the following // "https://myaccount.blob.core.windows.net/mycontainer/blob?sasString"; // "https://myaccount.blob.core.windows.net/mycontainer/blob"; // "https://myaccount.blob.core.windows.net/mycontainer/blob/a.txt?sasString"; // "https://myaccount.blob.core.windows.net/mycontainer/blob/a.txt"; // IPv4/IPv6 address hosts, Endpoints - `http://127.0.0.1:10000/devstoreaccount1/containername/blob` // http://localhost:10001/devstoreaccount1/containername/blob const parsedUrl = coreHttp.URLBuilder.parse(this.url); if (parsedUrl.getHost().split(".")[1] === "blob") { // "https://myaccount.blob.core.windows.net/containername/blob". // .getPath() -> /containername/blob const pathComponents = parsedUrl.getPath().match("/([^/]*)(/(.*))?"); containerName = pathComponents[1]; blobName = pathComponents[3]; } else if (isIpEndpointStyle(parsedUrl)) { // IPv4/IPv6 address hosts... Example - http://192.0.0.10:10001/devstoreaccount1/containername/blob // Single word domain without a [dot] in the endpoint... Example - http://localhost:10001/devstoreaccount1/containername/blob // .getPath() -> /devstoreaccount1/containername/blob const pathComponents = parsedUrl.getPath().match("/([^/]*)/([^/]*)(/(.*))?"); containerName = pathComponents[2]; blobName = pathComponents[4]; } else { // "https://customdomain.com/containername/blob". // .getPath() -> /containername/blob const pathComponents = parsedUrl.getPath().match("/([^/]*)(/(.*))?"); containerName = pathComponents[1]; blobName = pathComponents[3]; } // decode the encoded blobName, containerName - to get all the special characters that might be present in them containerName = decodeURIComponent(containerName); blobName = decodeURIComponent(blobName); // Azure Storage Server will replace "\" with "/" in the blob names // doing the same in the SDK side so that the user doesn't have to replace "\" instances in the blobName blobName = blobName.replace(/\\/g, "/"); if (!containerName) { throw new Error("Provided containerName is invalid."); } return { blobName, containerName }; } catch (error) { throw new Error("Unable to extract blobName and containerName with provided information."); } } /** * Asynchronously copies a blob to a destination within the storage account. * In version 2012-02-12 and later, the source for a Copy Blob operation can be * a committed blob in any Azure storage account. * Beginning with version 2015-02-21, the source for a Copy Blob operation can be * an Azure file in any Azure storage account. * Only storage accounts created on or after June 7th, 2012 allow the Copy Blob * operation to copy from another storage account. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/copy-blob * * @param copySource - url to the source Azure Blob/File. * @param options - Optional options to the Blob Start Copy From URL operation. */ async startCopyFromURL(copySource, options = {}) { var _a, _b, _c; const { span, updatedOptions } = createSpan("BlobClient-startCopyFromURL", options); options.conditions = options.conditions || {}; options.sourceConditions = options.sourceConditions || {}; try { return await this.blobContext.startCopyFromURL(copySource, Object.assign({ abortSignal: options.abortSignal, leaseAccessConditions: options.conditions, metadata: options.metadata, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }), sourceModifiedAccessConditions: { sourceIfMatch: options.sourceConditions.ifMatch, sourceIfModifiedSince: options.sourceConditions.ifModifiedSince, sourceIfNoneMatch: options.sourceConditions.ifNoneMatch, sourceIfUnmodifiedSince: options.sourceConditions.ifUnmodifiedSince, sourceIfTags: options.sourceConditions.tagConditions, }, immutabilityPolicyExpiry: (_b = options.immutabilityPolicy) === null || _b === void 0 ? void 0 : _b.expiriesOn, immutabilityPolicyMode: (_c = options.immutabilityPolicy) === null || _c === void 0 ? void 0 : _c.policyMode, legalHold: options.legalHold, rehydratePriority: options.rehydratePriority, tier: toAccessTier(options.tier), blobTagsString: toBlobTagsString(options.tags), sealBlob: options.sealBlob }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Only available for BlobClient constructed with a shared key credential. * * Generates a Blob Service Shared Access Signature (SAS) URI based on the client properties * and parameters passed in. The SAS is signed by the shared key credential of the client. * * @see https://docs.microsoft.com/en-us/rest/api/storageservices/constructing-a-service-sas * * @param options - Optional parameters. * @returns The SAS URI consisting of the URI to the resource represented by this client, followed by the generated SAS token. */ generateSasUrl(options) { return new Promise((resolve) => { if (!(this.credential instanceof StorageSharedKeyCredential)) { throw new RangeError("Can only generate the SAS when the client is initialized with a shared key credential"); } const sas = generateBlobSASQueryParameters(Object.assign({ containerName: this._containerName, blobName: this._name, snapshotTime: this._snapshot, versionId: this._versionId }, options), this.credential).toString(); resolve(appendToURLQuery(this.url, sas)); }); } /** * Delete the immutablility policy on the blob. * * @param options - Optional options to delete immutability policy on the blob. */ async deleteImmutabilityPolicy(options) { const { span, updatedOptions } = createSpan("BlobClient-deleteImmutabilityPolicy", options); try { return await this.blobContext.deleteImmutabilityPolicy(Object.assign({ abortSignal: options === null || options === void 0 ? void 0 : options.abortSignal }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Set immutablility policy on the blob. * * @param options - Optional options to set immutability policy on the blob. */ async setImmutabilityPolicy(immutabilityPolicy, options) { const { span, updatedOptions } = createSpan("BlobClient-setImmutabilityPolicy", options); try { return await this.blobContext.setImmutabilityPolicy(Object.assign({ abortSignal: options === null || options === void 0 ? void 0 : options.abortSignal, immutabilityPolicyExpiry: immutabilityPolicy.expiriesOn, immutabilityPolicyMode: immutabilityPolicy.policyMode, modifiedAccessConditions: options === null || options === void 0 ? void 0 : options.modifiedAccessCondition }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Set legal hold on the blob. * * @param options - Optional options to set legal hold on the blob. */ async setLegalHold(legalHoldEnabled, options) { const { span, updatedOptions } = createSpan("BlobClient-setLegalHold", options); try { return await this.blobContext.setLegalHold(legalHoldEnabled, Object.assign({ abortSignal: options === null || options === void 0 ? void 0 : options.abortSignal }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } } /** * AppendBlobClient defines a set of operations applicable to append blobs. */ class AppendBlobClient extends BlobClient { constructor(urlOrConnectionString, credentialOrPipelineOrContainerName, blobNameOrOptions, // Legacy, no fix for eslint error without breaking. Disable it for this interface. /* eslint-disable-next-line @azure/azure-sdk/ts-naming-options*/ options) { // In TypeScript we cannot simply pass all parameters to super() like below so have to duplicate the code instead. // super(s, credentialOrPipelineOrContainerNameOrOptions, blobNameOrOptions, options); let pipeline; let url; options = options || {}; if (isPipelineLike(credentialOrPipelineOrContainerName)) { // (url: string, pipeline: Pipeline) url = urlOrConnectionString; pipeline = credentialOrPipelineOrContainerName; } else if ((coreHttp.isNode && credentialOrPipelineOrContainerName instanceof StorageSharedKeyCredential) || credentialOrPipelineOrContainerName instanceof AnonymousCredential || coreHttp.isTokenCredential(credentialOrPipelineOrContainerName)) { // (url: string, credential?: StorageSharedKeyCredential | AnonymousCredential | TokenCredential, options?: StoragePipelineOptions) url = urlOrConnectionString; url = urlOrConnectionString; options = blobNameOrOptions; pipeline = newPipeline(credentialOrPipelineOrContainerName, options); } else if (!credentialOrPipelineOrContainerName && typeof credentialOrPipelineOrContainerName !== "string") { // (url: string, credential?: StorageSharedKeyCredential | AnonymousCredential | TokenCredential, options?: StoragePipelineOptions) url = urlOrConnectionString; // The second parameter is undefined. Use anonymous credential. pipeline = newPipeline(new AnonymousCredential(), options); } else if (credentialOrPipelineOrContainerName && typeof credentialOrPipelineOrContainerName === "string" && blobNameOrOptions && typeof blobNameOrOptions === "string") { // (connectionString: string, containerName: string, blobName: string, options?: StoragePipelineOptions) const containerName = credentialOrPipelineOrContainerName; const blobName = blobNameOrOptions; const extractedCreds = extractConnectionStringParts(urlOrConnectionString); if (extractedCreds.kind === "AccountConnString") { if (coreHttp.isNode) { const sharedKeyCredential = new StorageSharedKeyCredential(extractedCreds.accountName, extractedCreds.accountKey); url = appendToURLPath(appendToURLPath(extractedCreds.url, encodeURIComponent(containerName)), encodeURIComponent(blobName)); if (!options.proxyOptions) { options.proxyOptions = coreHttp.getDefaultProxySettings(extractedCreds.proxyUri); } pipeline = newPipeline(sharedKeyCredential, options); } else { throw new Error("Account connection string is only supported in Node.js environment"); } } else if (extractedCreds.kind === "SASConnString") { url = appendToURLPath(appendToURLPath(extractedCreds.url, encodeURIComponent(containerName)), encodeURIComponent(blobName)) + "?" + extractedCreds.accountSas; pipeline = newPipeline(new AnonymousCredential(), options); } else { throw new Error("Connection string must be either an Account connection string or a SAS connection string"); } } else { throw new Error("Expecting non-empty strings for containerName and blobName parameters"); } super(url, pipeline); this.appendBlobContext = new AppendBlob(this.storageClientContext); } /** * Creates a new AppendBlobClient object identical to the source but with the * specified snapshot timestamp. * Provide "" will remove the snapshot and return a Client to the base blob. * * @param snapshot - The snapshot timestamp. * @returns A new AppendBlobClient object identical to the source but with the specified snapshot timestamp. */ withSnapshot(snapshot) { return new AppendBlobClient(setURLParameter(this.url, URLConstants.Parameters.SNAPSHOT, snapshot.length === 0 ? undefined : snapshot), this.pipeline); } /** * Creates a 0-length append blob. Call AppendBlock to append data to an append blob. * @see https://docs.microsoft.com/rest/api/storageservices/put-blob * * @param options - Options to the Append Block Create operation. * * * Example usage: * * ```js * const appendBlobClient = containerClient.getAppendBlobClient(""); * await appendBlobClient.create(); * ``` */ async create(options = {}) { var _a, _b, _c; const { span, updatedOptions } = createSpan("AppendBlobClient-create", options); options.conditions = options.conditions || {}; try { ensureCpkIfSpecified(options.customerProvidedKey, this.isHttps); return await this.appendBlobContext.create(0, Object.assign({ abortSignal: options.abortSignal, blobHttpHeaders: options.blobHTTPHeaders, leaseAccessConditions: options.conditions, metadata: options.metadata, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }), cpkInfo: options.customerProvidedKey, encryptionScope: options.encryptionScope, immutabilityPolicyExpiry: (_b = options.immutabilityPolicy) === null || _b === void 0 ? void 0 : _b.expiriesOn, immutabilityPolicyMode: (_c = options.immutabilityPolicy) === null || _c === void 0 ? void 0 : _c.policyMode, legalHold: options.legalHold, blobTagsString: toBlobTagsString(options.tags) }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Creates a 0-length append blob. Call AppendBlock to append data to an append blob. * If the blob with the same name already exists, the content of the existing blob will remain unchanged. * @see https://docs.microsoft.com/rest/api/storageservices/put-blob * * @param options - */ async createIfNotExists(options = {}) { var _a, _b; const { span, updatedOptions } = createSpan("AppendBlobClient-createIfNotExists", options); const conditions = { ifNoneMatch: ETagAny }; try { const res = await this.create(Object.assign(Object.assign({}, updatedOptions), { conditions })); return Object.assign(Object.assign({ succeeded: true }, res), { _response: res._response }); } catch (e) { if (((_a = e.details) === null || _a === void 0 ? void 0 : _a.errorCode) === "BlobAlreadyExists") { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: "Expected exception when creating a blob only if it does not already exist.", }); return Object.assign(Object.assign({ succeeded: false }, (_b = e.response) === null || _b === void 0 ? void 0 : _b.parsedHeaders), { _response: e.response }); } span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Seals the append blob, making it read only. * * @param options - */ async seal(options = {}) { var _a; const { span, updatedOptions } = createSpan("AppendBlobClient-seal", options); options.conditions = options.conditions || {}; try { return await this.appendBlobContext.seal(Object.assign({ abortSignal: options.abortSignal, appendPositionAccessConditions: options.conditions, leaseAccessConditions: options.conditions, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }) }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Commits a new block of data to the end of the existing append blob. * @see https://docs.microsoft.com/rest/api/storageservices/append-block * * @param body - Data to be appended. * @param contentLength - Length of the body in bytes. * @param options - Options to the Append Block operation. * * * Example usage: * * ```js * const content = "Hello World!"; * * // Create a new append blob and append data to the blob. * const newAppendBlobClient = containerClient.getAppendBlobClient(""); * await newAppendBlobClient.create(); * await newAppendBlobClient.appendBlock(content, content.length); * * // Append data to an existing append blob. * const existingAppendBlobClient = containerClient.getAppendBlobClient(""); * await existingAppendBlobClient.appendBlock(content, content.length); * ``` */ async appendBlock(body, contentLength, options = {}) { var _a; const { span, updatedOptions } = createSpan("AppendBlobClient-appendBlock", options); options.conditions = options.conditions || {}; try { ensureCpkIfSpecified(options.customerProvidedKey, this.isHttps); return await this.appendBlobContext.appendBlock(contentLength, body, Object.assign({ abortSignal: options.abortSignal, appendPositionAccessConditions: options.conditions, leaseAccessConditions: options.conditions, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }), requestOptions: { onUploadProgress: options.onProgress, }, transactionalContentMD5: options.transactionalContentMD5, transactionalContentCrc64: options.transactionalContentCrc64, cpkInfo: options.customerProvidedKey, encryptionScope: options.encryptionScope }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * The Append Block operation commits a new block of data to the end of an existing append blob * where the contents are read from a source url. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/append-block-from-url * * @param sourceURL - * The url to the blob that will be the source of the copy. A source blob in the same storage account can * be authenticated via Shared Key. However, if the source is a blob in another account, the source blob * must either be public or must be authenticated via a shared access signature. If the source blob is * public, no authentication is required to perform the operation. * @param sourceOffset - Offset in source to be appended * @param count - Number of bytes to be appended as a block * @param options - */ async appendBlockFromURL(sourceURL, sourceOffset, count, options = {}) { var _a; const { span, updatedOptions } = createSpan("AppendBlobClient-appendBlockFromURL", options); options.conditions = options.conditions || {}; options.sourceConditions = options.sourceConditions || {}; try { ensureCpkIfSpecified(options.customerProvidedKey, this.isHttps); return await this.appendBlobContext.appendBlockFromUrl(sourceURL, 0, Object.assign({ abortSignal: options.abortSignal, sourceRange: rangeToString({ offset: sourceOffset, count }), sourceContentMD5: options.sourceContentMD5, sourceContentCrc64: options.sourceContentCrc64, leaseAccessConditions: options.conditions, appendPositionAccessConditions: options.conditions, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }), sourceModifiedAccessConditions: { sourceIfMatch: options.sourceConditions.ifMatch, sourceIfModifiedSince: options.sourceConditions.ifModifiedSince, sourceIfNoneMatch: options.sourceConditions.ifNoneMatch, sourceIfUnmodifiedSince: options.sourceConditions.ifUnmodifiedSince, }, copySourceAuthorization: httpAuthorizationToString(options.sourceAuthorization), cpkInfo: options.customerProvidedKey, encryptionScope: options.encryptionScope }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } } /** * BlockBlobClient defines a set of operations applicable to block blobs. */ class BlockBlobClient extends BlobClient { constructor(urlOrConnectionString, credentialOrPipelineOrContainerName, blobNameOrOptions, // Legacy, no fix for eslint error without breaking. Disable it for this interface. /* eslint-disable-next-line @azure/azure-sdk/ts-naming-options*/ options) { // In TypeScript we cannot simply pass all parameters to super() like below so have to duplicate the code instead. // super(s, credentialOrPipelineOrContainerNameOrOptions, blobNameOrOptions, options); let pipeline; let url; options = options || {}; if (isPipelineLike(credentialOrPipelineOrContainerName)) { // (url: string, pipeline: Pipeline) url = urlOrConnectionString; pipeline = credentialOrPipelineOrContainerName; } else if ((coreHttp.isNode && credentialOrPipelineOrContainerName instanceof StorageSharedKeyCredential) || credentialOrPipelineOrContainerName instanceof AnonymousCredential || coreHttp.isTokenCredential(credentialOrPipelineOrContainerName)) { // (url: string, credential?: StorageSharedKeyCredential | AnonymousCredential | TokenCredential, options?: StoragePipelineOptions) url = urlOrConnectionString; options = blobNameOrOptions; pipeline = newPipeline(credentialOrPipelineOrContainerName, options); } else if (!credentialOrPipelineOrContainerName && typeof credentialOrPipelineOrContainerName !== "string") { // (url: string, credential?: StorageSharedKeyCredential | AnonymousCredential | TokenCredential, options?: StoragePipelineOptions) // The second parameter is undefined. Use anonymous credential. url = urlOrConnectionString; if (blobNameOrOptions && typeof blobNameOrOptions !== "string") { options = blobNameOrOptions; } pipeline = newPipeline(new AnonymousCredential(), options); } else if (credentialOrPipelineOrContainerName && typeof credentialOrPipelineOrContainerName === "string" && blobNameOrOptions && typeof blobNameOrOptions === "string") { // (connectionString: string, containerName: string, blobName: string, options?: StoragePipelineOptions) const containerName = credentialOrPipelineOrContainerName; const blobName = blobNameOrOptions; const extractedCreds = extractConnectionStringParts(urlOrConnectionString); if (extractedCreds.kind === "AccountConnString") { if (coreHttp.isNode) { const sharedKeyCredential = new StorageSharedKeyCredential(extractedCreds.accountName, extractedCreds.accountKey); url = appendToURLPath(appendToURLPath(extractedCreds.url, encodeURIComponent(containerName)), encodeURIComponent(blobName)); if (!options.proxyOptions) { options.proxyOptions = coreHttp.getDefaultProxySettings(extractedCreds.proxyUri); } pipeline = newPipeline(sharedKeyCredential, options); } else { throw new Error("Account connection string is only supported in Node.js environment"); } } else if (extractedCreds.kind === "SASConnString") { url = appendToURLPath(appendToURLPath(extractedCreds.url, encodeURIComponent(containerName)), encodeURIComponent(blobName)) + "?" + extractedCreds.accountSas; pipeline = newPipeline(new AnonymousCredential(), options); } else { throw new Error("Connection string must be either an Account connection string or a SAS connection string"); } } else { throw new Error("Expecting non-empty strings for containerName and blobName parameters"); } super(url, pipeline); this.blockBlobContext = new BlockBlob(this.storageClientContext); this._blobContext = new Blob$1(this.storageClientContext); } /** * Creates a new BlockBlobClient object identical to the source but with the * specified snapshot timestamp. * Provide "" will remove the snapshot and return a URL to the base blob. * * @param snapshot - The snapshot timestamp. * @returns A new BlockBlobClient object identical to the source but with the specified snapshot timestamp. */ withSnapshot(snapshot) { return new BlockBlobClient(setURLParameter(this.url, URLConstants.Parameters.SNAPSHOT, snapshot.length === 0 ? undefined : snapshot), this.pipeline); } /** * ONLY AVAILABLE IN NODE.JS RUNTIME. * * Quick query for a JSON or CSV formatted blob. * * Example usage (Node.js): * * ```js * // Query and convert a blob to a string * const queryBlockBlobResponse = await blockBlobClient.query("select * from BlobStorage"); * const downloaded = (await streamToBuffer(queryBlockBlobResponse.readableStreamBody)).toString(); * console.log("Query blob content:", downloaded); * * async function streamToBuffer(readableStream) { * return new Promise((resolve, reject) => { * const chunks = []; * readableStream.on("data", (data) => { * chunks.push(data instanceof Buffer ? data : Buffer.from(data)); * }); * readableStream.on("end", () => { * resolve(Buffer.concat(chunks)); * }); * readableStream.on("error", reject); * }); * } * ``` * * @param query - * @param options - */ async query(query, options = {}) { var _a; ensureCpkIfSpecified(options.customerProvidedKey, this.isHttps); const { span, updatedOptions } = createSpan("BlockBlobClient-query", options); try { if (!coreHttp.isNode) { throw new Error("This operation currently is only supported in Node.js."); } ensureCpkIfSpecified(options.customerProvidedKey, this.isHttps); const response = await this._blobContext.query(Object.assign({ abortSignal: options.abortSignal, queryRequest: { queryType: "SQL", expression: query, inputSerialization: toQuerySerialization(options.inputTextConfiguration), outputSerialization: toQuerySerialization(options.outputTextConfiguration), }, leaseAccessConditions: options.conditions, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }), cpkInfo: options.customerProvidedKey }, convertTracingToRequestOptionsBase(updatedOptions))); return new BlobQueryResponse(response, { abortSignal: options.abortSignal, onProgress: options.onProgress, onError: options.onError, }); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Creates a new block blob, or updates the content of an existing block blob. * Updating an existing block blob overwrites any existing metadata on the blob. * Partial updates are not supported; the content of the existing blob is * overwritten with the new content. To perform a partial update of a block blob's, * use {@link stageBlock} and {@link commitBlockList}. * * This is a non-parallel uploading method, please use {@link uploadFile}, * {@link uploadStream} or {@link uploadBrowserData} for better performance * with concurrency uploading. * * @see https://docs.microsoft.com/rest/api/storageservices/put-blob * * @param body - Blob, string, ArrayBuffer, ArrayBufferView or a function * which returns a new Readable stream whose offset is from data source beginning. * @param contentLength - Length of body in bytes. Use Buffer.byteLength() to calculate body length for a * string including non non-Base64/Hex-encoded characters. * @param options - Options to the Block Blob Upload operation. * @returns Response data for the Block Blob Upload operation. * * Example usage: * * ```js * const content = "Hello world!"; * const uploadBlobResponse = await blockBlobClient.upload(content, content.length); * ``` */ async upload(body, contentLength, options = {}) { var _a, _b, _c; options.conditions = options.conditions || {}; const { span, updatedOptions } = createSpan("BlockBlobClient-upload", options); try { ensureCpkIfSpecified(options.customerProvidedKey, this.isHttps); return await this.blockBlobContext.upload(contentLength, body, Object.assign({ abortSignal: options.abortSignal, blobHttpHeaders: options.blobHTTPHeaders, leaseAccessConditions: options.conditions, metadata: options.metadata, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }), requestOptions: { onUploadProgress: options.onProgress, }, cpkInfo: options.customerProvidedKey, encryptionScope: options.encryptionScope, immutabilityPolicyExpiry: (_b = options.immutabilityPolicy) === null || _b === void 0 ? void 0 : _b.expiriesOn, immutabilityPolicyMode: (_c = options.immutabilityPolicy) === null || _c === void 0 ? void 0 : _c.policyMode, legalHold: options.legalHold, tier: toAccessTier(options.tier), blobTagsString: toBlobTagsString(options.tags) }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Creates a new Block Blob where the contents of the blob are read from a given URL. * This API is supported beginning with the 2020-04-08 version. Partial updates * are not supported with Put Blob from URL; the content of an existing blob is overwritten with * the content of the new blob. To perform partial updates to a block blob’s contents using a * source URL, use {@link stageBlockFromURL} and {@link commitBlockList}. * * @param sourceURL - Specifies the URL of the blob. The value * may be a URL of up to 2 KB in length that specifies a blob. * The value should be URL-encoded as it would appear * in a request URI. The source blob must either be public * or must be authenticated via a shared access signature. * If the source blob is public, no authentication is required * to perform the operation. Here are some examples of source object URLs: * - https://myaccount.blob.core.windows.net/mycontainer/myblob * - https://myaccount.blob.core.windows.net/mycontainer/myblob?snapshot= * @param options - Optional parameters. */ async syncUploadFromURL(sourceURL, options = {}) { var _a, _b, _c, _d, _e; options.conditions = options.conditions || {}; const { span, updatedOptions } = createSpan("BlockBlobClient-syncUploadFromURL", options); try { ensureCpkIfSpecified(options.customerProvidedKey, this.isHttps); return await this.blockBlobContext.putBlobFromUrl(0, sourceURL, Object.assign(Object.assign(Object.assign({}, options), { blobHttpHeaders: options.blobHTTPHeaders, leaseAccessConditions: options.conditions, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: options.conditions.tagConditions }), sourceModifiedAccessConditions: { sourceIfMatch: (_a = options.sourceConditions) === null || _a === void 0 ? void 0 : _a.ifMatch, sourceIfModifiedSince: (_b = options.sourceConditions) === null || _b === void 0 ? void 0 : _b.ifModifiedSince, sourceIfNoneMatch: (_c = options.sourceConditions) === null || _c === void 0 ? void 0 : _c.ifNoneMatch, sourceIfUnmodifiedSince: (_d = options.sourceConditions) === null || _d === void 0 ? void 0 : _d.ifUnmodifiedSince, sourceIfTags: (_e = options.sourceConditions) === null || _e === void 0 ? void 0 : _e.tagConditions, }, cpkInfo: options.customerProvidedKey, copySourceAuthorization: httpAuthorizationToString(options.sourceAuthorization), tier: toAccessTier(options.tier), blobTagsString: toBlobTagsString(options.tags), copySourceTags: options.copySourceTags }), convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Uploads the specified block to the block blob's "staging area" to be later * committed by a call to commitBlockList. * @see https://docs.microsoft.com/rest/api/storageservices/put-block * * @param blockId - A 64-byte value that is base64-encoded * @param body - Data to upload to the staging area. * @param contentLength - Number of bytes to upload. * @param options - Options to the Block Blob Stage Block operation. * @returns Response data for the Block Blob Stage Block operation. */ async stageBlock(blockId, body, contentLength, options = {}) { const { span, updatedOptions } = createSpan("BlockBlobClient-stageBlock", options); try { ensureCpkIfSpecified(options.customerProvidedKey, this.isHttps); return await this.blockBlobContext.stageBlock(blockId, contentLength, body, Object.assign({ abortSignal: options.abortSignal, leaseAccessConditions: options.conditions, requestOptions: { onUploadProgress: options.onProgress, }, transactionalContentMD5: options.transactionalContentMD5, transactionalContentCrc64: options.transactionalContentCrc64, cpkInfo: options.customerProvidedKey, encryptionScope: options.encryptionScope }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * The Stage Block From URL operation creates a new block to be committed as part * of a blob where the contents are read from a URL. * This API is available starting in version 2018-03-28. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/put-block-from-url * * @param blockId - A 64-byte value that is base64-encoded * @param sourceURL - Specifies the URL of the blob. The value * may be a URL of up to 2 KB in length that specifies a blob. * The value should be URL-encoded as it would appear * in a request URI. The source blob must either be public * or must be authenticated via a shared access signature. * If the source blob is public, no authentication is required * to perform the operation. Here are some examples of source object URLs: * - https://myaccount.blob.core.windows.net/mycontainer/myblob * - https://myaccount.blob.core.windows.net/mycontainer/myblob?snapshot= * @param offset - From which position of the blob to download, greater than or equal to 0 * @param count - How much data to be downloaded, greater than 0. Will download to the end when undefined * @param options - Options to the Block Blob Stage Block From URL operation. * @returns Response data for the Block Blob Stage Block From URL operation. */ async stageBlockFromURL(blockId, sourceURL, offset = 0, count, options = {}) { const { span, updatedOptions } = createSpan("BlockBlobClient-stageBlockFromURL", options); try { ensureCpkIfSpecified(options.customerProvidedKey, this.isHttps); return await this.blockBlobContext.stageBlockFromURL(blockId, 0, sourceURL, Object.assign({ abortSignal: options.abortSignal, leaseAccessConditions: options.conditions, sourceContentMD5: options.sourceContentMD5, sourceContentCrc64: options.sourceContentCrc64, sourceRange: offset === 0 && !count ? undefined : rangeToString({ offset, count }), cpkInfo: options.customerProvidedKey, encryptionScope: options.encryptionScope, copySourceAuthorization: httpAuthorizationToString(options.sourceAuthorization) }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Writes a blob by specifying the list of block IDs that make up the blob. * In order to be written as part of a blob, a block must have been successfully written * to the server in a prior {@link stageBlock} operation. You can call {@link commitBlockList} to * update a blob by uploading only those blocks that have changed, then committing the new and existing * blocks together. Any blocks not specified in the block list and permanently deleted. * @see https://docs.microsoft.com/rest/api/storageservices/put-block-list * * @param blocks - Array of 64-byte value that is base64-encoded * @param options - Options to the Block Blob Commit Block List operation. * @returns Response data for the Block Blob Commit Block List operation. */ async commitBlockList(blocks, options = {}) { var _a, _b, _c; options.conditions = options.conditions || {}; const { span, updatedOptions } = createSpan("BlockBlobClient-commitBlockList", options); try { ensureCpkIfSpecified(options.customerProvidedKey, this.isHttps); return await this.blockBlobContext.commitBlockList({ latest: blocks }, Object.assign({ abortSignal: options.abortSignal, blobHttpHeaders: options.blobHTTPHeaders, leaseAccessConditions: options.conditions, metadata: options.metadata, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }), cpkInfo: options.customerProvidedKey, encryptionScope: options.encryptionScope, immutabilityPolicyExpiry: (_b = options.immutabilityPolicy) === null || _b === void 0 ? void 0 : _b.expiriesOn, immutabilityPolicyMode: (_c = options.immutabilityPolicy) === null || _c === void 0 ? void 0 : _c.policyMode, legalHold: options.legalHold, tier: toAccessTier(options.tier), blobTagsString: toBlobTagsString(options.tags) }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Returns the list of blocks that have been uploaded as part of a block blob * using the specified block list filter. * @see https://docs.microsoft.com/rest/api/storageservices/get-block-list * * @param listType - Specifies whether to return the list of committed blocks, * the list of uncommitted blocks, or both lists together. * @param options - Options to the Block Blob Get Block List operation. * @returns Response data for the Block Blob Get Block List operation. */ async getBlockList(listType, options = {}) { var _a; const { span, updatedOptions } = createSpan("BlockBlobClient-getBlockList", options); try { const res = await this.blockBlobContext.getBlockList(listType, Object.assign({ abortSignal: options.abortSignal, leaseAccessConditions: options.conditions, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }) }, convertTracingToRequestOptionsBase(updatedOptions))); if (!res.committedBlocks) { res.committedBlocks = []; } if (!res.uncommittedBlocks) { res.uncommittedBlocks = []; } return res; } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } // High level functions /** * Uploads a Buffer(Node.js)/Blob(browsers)/ArrayBuffer/ArrayBufferView object to a BlockBlob. * * When data length is no more than the specifiled {@link BlockBlobParallelUploadOptions.maxSingleShotSize} (default is * {@link BLOCK_BLOB_MAX_UPLOAD_BLOB_BYTES}), this method will use 1 {@link upload} call to finish the upload. * Otherwise, this method will call {@link stageBlock} to upload blocks, and finally call {@link commitBlockList} * to commit the block list. * * A common {@link BlockBlobParallelUploadOptions.blobHTTPHeaders} option to set is * `blobContentType`, enabling the browser to provide * functionality based on file type. * * @param data - Buffer(Node.js), Blob, ArrayBuffer or ArrayBufferView * @param options - */ async uploadData(data, options = {}) { const { span, updatedOptions } = createSpan("BlockBlobClient-uploadData", options); try { if (coreHttp.isNode) { let buffer; if (data instanceof Buffer) { buffer = data; } else if (data instanceof ArrayBuffer) { buffer = Buffer.from(data); } else { data = data; buffer = Buffer.from(data.buffer, data.byteOffset, data.byteLength); } return this.uploadSeekableInternal((offset, size) => buffer.slice(offset, offset + size), buffer.byteLength, updatedOptions); } else { const browserBlob = new Blob([data]); return this.uploadSeekableInternal((offset, size) => browserBlob.slice(offset, offset + size), browserBlob.size, updatedOptions); } } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * ONLY AVAILABLE IN BROWSERS. * * Uploads a browser Blob/File/ArrayBuffer/ArrayBufferView object to block blob. * * When buffer length lesser than or equal to 256MB, this method will use 1 upload call to finish the upload. * Otherwise, this method will call {@link stageBlock} to upload blocks, and finally call * {@link commitBlockList} to commit the block list. * * A common {@link BlockBlobParallelUploadOptions.blobHTTPHeaders} option to set is * `blobContentType`, enabling the browser to provide * functionality based on file type. * * @deprecated Use {@link uploadData} instead. * * @param browserData - Blob, File, ArrayBuffer or ArrayBufferView * @param options - Options to upload browser data. * @returns Response data for the Blob Upload operation. */ async uploadBrowserData(browserData, options = {}) { const { span, updatedOptions } = createSpan("BlockBlobClient-uploadBrowserData", options); try { const browserBlob = new Blob([browserData]); return await this.uploadSeekableInternal((offset, size) => browserBlob.slice(offset, offset + size), browserBlob.size, updatedOptions); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * * Uploads data to block blob. Requires a bodyFactory as the data source, * which need to return a {@link HttpRequestBody} object with the offset and size provided. * * When data length is no more than the specified {@link BlockBlobParallelUploadOptions.maxSingleShotSize} (default is * {@link BLOCK_BLOB_MAX_UPLOAD_BLOB_BYTES}), this method will use 1 {@link upload} call to finish the upload. * Otherwise, this method will call {@link stageBlock} to upload blocks, and finally call {@link commitBlockList} * to commit the block list. * * @param bodyFactory - * @param size - size of the data to upload. * @param options - Options to Upload to Block Blob operation. * @returns Response data for the Blob Upload operation. */ async uploadSeekableInternal(bodyFactory, size, options = {}) { if (!options.blockSize) { options.blockSize = 0; } if (options.blockSize < 0 || options.blockSize > BLOCK_BLOB_MAX_STAGE_BLOCK_BYTES) { throw new RangeError(`blockSize option must be >= 0 and <= ${BLOCK_BLOB_MAX_STAGE_BLOCK_BYTES}`); } if (options.maxSingleShotSize !== 0 && !options.maxSingleShotSize) { options.maxSingleShotSize = BLOCK_BLOB_MAX_UPLOAD_BLOB_BYTES; } if (options.maxSingleShotSize < 0 || options.maxSingleShotSize > BLOCK_BLOB_MAX_UPLOAD_BLOB_BYTES) { throw new RangeError(`maxSingleShotSize option must be >= 0 and <= ${BLOCK_BLOB_MAX_UPLOAD_BLOB_BYTES}`); } if (options.blockSize === 0) { if (size > BLOCK_BLOB_MAX_STAGE_BLOCK_BYTES * BLOCK_BLOB_MAX_BLOCKS) { throw new RangeError(`${size} is too larger to upload to a block blob.`); } if (size > options.maxSingleShotSize) { options.blockSize = Math.ceil(size / BLOCK_BLOB_MAX_BLOCKS); if (options.blockSize < DEFAULT_BLOB_DOWNLOAD_BLOCK_BYTES) { options.blockSize = DEFAULT_BLOB_DOWNLOAD_BLOCK_BYTES; } } } if (!options.blobHTTPHeaders) { options.blobHTTPHeaders = {}; } if (!options.conditions) { options.conditions = {}; } const { span, updatedOptions } = createSpan("BlockBlobClient-uploadSeekableInternal", options); try { if (size <= options.maxSingleShotSize) { return await this.upload(bodyFactory(0, size), size, updatedOptions); } const numBlocks = Math.floor((size - 1) / options.blockSize) + 1; if (numBlocks > BLOCK_BLOB_MAX_BLOCKS) { throw new RangeError(`The buffer's size is too big or the BlockSize is too small;` + `the number of blocks must be <= ${BLOCK_BLOB_MAX_BLOCKS}`); } const blockList = []; const blockIDPrefix = coreHttp.generateUuid(); let transferProgress = 0; const batch = new Batch(options.concurrency); for (let i = 0; i < numBlocks; i++) { batch.addOperation(async () => { const blockID = generateBlockID(blockIDPrefix, i); const start = options.blockSize * i; const end = i === numBlocks - 1 ? size : start + options.blockSize; const contentLength = end - start; blockList.push(blockID); await this.stageBlock(blockID, bodyFactory(start, contentLength), contentLength, { abortSignal: options.abortSignal, conditions: options.conditions, encryptionScope: options.encryptionScope, tracingOptions: updatedOptions.tracingOptions, }); // Update progress after block is successfully uploaded to server, in case of block trying // TODO: Hook with convenience layer progress event in finer level transferProgress += contentLength; if (options.onProgress) { options.onProgress({ loadedBytes: transferProgress, }); } }); } await batch.do(); return this.commitBlockList(blockList, updatedOptions); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * ONLY AVAILABLE IN NODE.JS RUNTIME. * * Uploads a local file in blocks to a block blob. * * When file size lesser than or equal to 256MB, this method will use 1 upload call to finish the upload. * Otherwise, this method will call stageBlock to upload blocks, and finally call commitBlockList * to commit the block list. * * @param filePath - Full path of local file * @param options - Options to Upload to Block Blob operation. * @returns Response data for the Blob Upload operation. */ async uploadFile(filePath, options = {}) { const { span, updatedOptions } = createSpan("BlockBlobClient-uploadFile", options); try { const size = (await fsStat(filePath)).size; return await this.uploadSeekableInternal((offset, count) => { return () => fsCreateReadStream(filePath, { autoClose: true, end: count ? offset + count - 1 : Infinity, start: offset, }); }, size, Object.assign(Object.assign({}, options), { tracingOptions: Object.assign(Object.assign({}, options.tracingOptions), convertTracingToRequestOptionsBase(updatedOptions)) })); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * ONLY AVAILABLE IN NODE.JS RUNTIME. * * Uploads a Node.js Readable stream into block blob. * * PERFORMANCE IMPROVEMENT TIPS: * * Input stream highWaterMark is better to set a same value with bufferSize * parameter, which will avoid Buffer.concat() operations. * * @param stream - Node.js Readable stream * @param bufferSize - Size of every buffer allocated, also the block size in the uploaded block blob. Default value is 8MB * @param maxConcurrency - Max concurrency indicates the max number of buffers that can be allocated, * positive correlation with max uploading concurrency. Default value is 5 * @param options - Options to Upload Stream to Block Blob operation. * @returns Response data for the Blob Upload operation. */ async uploadStream(stream, bufferSize = DEFAULT_BLOCK_BUFFER_SIZE_BYTES, maxConcurrency = 5, options = {}) { if (!options.blobHTTPHeaders) { options.blobHTTPHeaders = {}; } if (!options.conditions) { options.conditions = {}; } const { span, updatedOptions } = createSpan("BlockBlobClient-uploadStream", options); try { let blockNum = 0; const blockIDPrefix = coreHttp.generateUuid(); let transferProgress = 0; const blockList = []; const scheduler = new BufferScheduler(stream, bufferSize, maxConcurrency, async (body, length) => { const blockID = generateBlockID(blockIDPrefix, blockNum); blockList.push(blockID); blockNum++; await this.stageBlock(blockID, body, length, { conditions: options.conditions, encryptionScope: options.encryptionScope, tracingOptions: updatedOptions.tracingOptions, }); // Update progress after block is successfully uploaded to server, in case of block trying transferProgress += length; if (options.onProgress) { options.onProgress({ loadedBytes: transferProgress }); } }, // concurrency should set a smaller value than maxConcurrency, which is helpful to // reduce the possibility when a outgoing handler waits for stream data, in // this situation, outgoing handlers are blocked. // Outgoing queue shouldn't be empty. Math.ceil((maxConcurrency / 4) * 3)); await scheduler.do(); return await this.commitBlockList(blockList, Object.assign(Object.assign({}, options), { tracingOptions: Object.assign(Object.assign({}, options.tracingOptions), convertTracingToRequestOptionsBase(updatedOptions)) })); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } } /** * PageBlobClient defines a set of operations applicable to page blobs. */ class PageBlobClient extends BlobClient { constructor(urlOrConnectionString, credentialOrPipelineOrContainerName, blobNameOrOptions, // Legacy, no fix for eslint error without breaking. Disable it for this interface. /* eslint-disable-next-line @azure/azure-sdk/ts-naming-options*/ options) { // In TypeScript we cannot simply pass all parameters to super() like below so have to duplicate the code instead. // super(s, credentialOrPipelineOrContainerNameOrOptions, blobNameOrOptions, options); let pipeline; let url; options = options || {}; if (isPipelineLike(credentialOrPipelineOrContainerName)) { // (url: string, pipeline: Pipeline) url = urlOrConnectionString; pipeline = credentialOrPipelineOrContainerName; } else if ((coreHttp.isNode && credentialOrPipelineOrContainerName instanceof StorageSharedKeyCredential) || credentialOrPipelineOrContainerName instanceof AnonymousCredential || coreHttp.isTokenCredential(credentialOrPipelineOrContainerName)) { // (url: string, credential?: StorageSharedKeyCredential | AnonymousCredential | TokenCredential, options?: StoragePipelineOptions) url = urlOrConnectionString; options = blobNameOrOptions; pipeline = newPipeline(credentialOrPipelineOrContainerName, options); } else if (!credentialOrPipelineOrContainerName && typeof credentialOrPipelineOrContainerName !== "string") { // (url: string, credential?: StorageSharedKeyCredential | AnonymousCredential | TokenCredential, options?: StoragePipelineOptions) // The second parameter is undefined. Use anonymous credential. url = urlOrConnectionString; pipeline = newPipeline(new AnonymousCredential(), options); } else if (credentialOrPipelineOrContainerName && typeof credentialOrPipelineOrContainerName === "string" && blobNameOrOptions && typeof blobNameOrOptions === "string") { // (connectionString: string, containerName: string, blobName: string, options?: StoragePipelineOptions) const containerName = credentialOrPipelineOrContainerName; const blobName = blobNameOrOptions; const extractedCreds = extractConnectionStringParts(urlOrConnectionString); if (extractedCreds.kind === "AccountConnString") { if (coreHttp.isNode) { const sharedKeyCredential = new StorageSharedKeyCredential(extractedCreds.accountName, extractedCreds.accountKey); url = appendToURLPath(appendToURLPath(extractedCreds.url, encodeURIComponent(containerName)), encodeURIComponent(blobName)); if (!options.proxyOptions) { options.proxyOptions = coreHttp.getDefaultProxySettings(extractedCreds.proxyUri); } pipeline = newPipeline(sharedKeyCredential, options); } else { throw new Error("Account connection string is only supported in Node.js environment"); } } else if (extractedCreds.kind === "SASConnString") { url = appendToURLPath(appendToURLPath(extractedCreds.url, encodeURIComponent(containerName)), encodeURIComponent(blobName)) + "?" + extractedCreds.accountSas; pipeline = newPipeline(new AnonymousCredential(), options); } else { throw new Error("Connection string must be either an Account connection string or a SAS connection string"); } } else { throw new Error("Expecting non-empty strings for containerName and blobName parameters"); } super(url, pipeline); this.pageBlobContext = new PageBlob(this.storageClientContext); } /** * Creates a new PageBlobClient object identical to the source but with the * specified snapshot timestamp. * Provide "" will remove the snapshot and return a Client to the base blob. * * @param snapshot - The snapshot timestamp. * @returns A new PageBlobClient object identical to the source but with the specified snapshot timestamp. */ withSnapshot(snapshot) { return new PageBlobClient(setURLParameter(this.url, URLConstants.Parameters.SNAPSHOT, snapshot.length === 0 ? undefined : snapshot), this.pipeline); } /** * Creates a page blob of the specified length. Call uploadPages to upload data * data to a page blob. * @see https://docs.microsoft.com/rest/api/storageservices/put-blob * * @param size - size of the page blob. * @param options - Options to the Page Blob Create operation. * @returns Response data for the Page Blob Create operation. */ async create(size, options = {}) { var _a, _b, _c; options.conditions = options.conditions || {}; const { span, updatedOptions } = createSpan("PageBlobClient-create", options); try { ensureCpkIfSpecified(options.customerProvidedKey, this.isHttps); return await this.pageBlobContext.create(0, size, Object.assign({ abortSignal: options.abortSignal, blobHttpHeaders: options.blobHTTPHeaders, blobSequenceNumber: options.blobSequenceNumber, leaseAccessConditions: options.conditions, metadata: options.metadata, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }), cpkInfo: options.customerProvidedKey, encryptionScope: options.encryptionScope, immutabilityPolicyExpiry: (_b = options.immutabilityPolicy) === null || _b === void 0 ? void 0 : _b.expiriesOn, immutabilityPolicyMode: (_c = options.immutabilityPolicy) === null || _c === void 0 ? void 0 : _c.policyMode, legalHold: options.legalHold, tier: toAccessTier(options.tier), blobTagsString: toBlobTagsString(options.tags) }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Creates a page blob of the specified length. Call uploadPages to upload data * data to a page blob. If the blob with the same name already exists, the content * of the existing blob will remain unchanged. * @see https://docs.microsoft.com/rest/api/storageservices/put-blob * * @param size - size of the page blob. * @param options - */ async createIfNotExists(size, options = {}) { var _a, _b; const { span, updatedOptions } = createSpan("PageBlobClient-createIfNotExists", options); try { const conditions = { ifNoneMatch: ETagAny }; const res = await this.create(size, Object.assign(Object.assign({}, options), { conditions, tracingOptions: updatedOptions.tracingOptions })); return Object.assign(Object.assign({ succeeded: true }, res), { _response: res._response }); } catch (e) { if (((_a = e.details) === null || _a === void 0 ? void 0 : _a.errorCode) === "BlobAlreadyExists") { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: "Expected exception when creating a blob only if it does not already exist.", }); return Object.assign(Object.assign({ succeeded: false }, (_b = e.response) === null || _b === void 0 ? void 0 : _b.parsedHeaders), { _response: e.response }); } span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Writes 1 or more pages to the page blob. The start and end offsets must be a multiple of 512. * @see https://docs.microsoft.com/rest/api/storageservices/put-page * * @param body - Data to upload * @param offset - Offset of destination page blob * @param count - Content length of the body, also number of bytes to be uploaded * @param options - Options to the Page Blob Upload Pages operation. * @returns Response data for the Page Blob Upload Pages operation. */ async uploadPages(body, offset, count, options = {}) { var _a; options.conditions = options.conditions || {}; const { span, updatedOptions } = createSpan("PageBlobClient-uploadPages", options); try { ensureCpkIfSpecified(options.customerProvidedKey, this.isHttps); return await this.pageBlobContext.uploadPages(count, body, Object.assign({ abortSignal: options.abortSignal, leaseAccessConditions: options.conditions, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }), requestOptions: { onUploadProgress: options.onProgress, }, range: rangeToString({ offset, count }), sequenceNumberAccessConditions: options.conditions, transactionalContentMD5: options.transactionalContentMD5, transactionalContentCrc64: options.transactionalContentCrc64, cpkInfo: options.customerProvidedKey, encryptionScope: options.encryptionScope }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * The Upload Pages operation writes a range of pages to a page blob where the * contents are read from a URL. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/put-page-from-url * * @param sourceURL - Specify a URL to the copy source, Shared Access Signature(SAS) maybe needed for authentication * @param sourceOffset - The source offset to copy from. Pass 0 to copy from the beginning of source page blob * @param destOffset - Offset of destination page blob * @param count - Number of bytes to be uploaded from source page blob * @param options - */ async uploadPagesFromURL(sourceURL, sourceOffset, destOffset, count, options = {}) { var _a; options.conditions = options.conditions || {}; options.sourceConditions = options.sourceConditions || {}; const { span, updatedOptions } = createSpan("PageBlobClient-uploadPagesFromURL", options); try { ensureCpkIfSpecified(options.customerProvidedKey, this.isHttps); return await this.pageBlobContext.uploadPagesFromURL(sourceURL, rangeToString({ offset: sourceOffset, count }), 0, rangeToString({ offset: destOffset, count }), Object.assign({ abortSignal: options.abortSignal, sourceContentMD5: options.sourceContentMD5, sourceContentCrc64: options.sourceContentCrc64, leaseAccessConditions: options.conditions, sequenceNumberAccessConditions: options.conditions, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }), sourceModifiedAccessConditions: { sourceIfMatch: options.sourceConditions.ifMatch, sourceIfModifiedSince: options.sourceConditions.ifModifiedSince, sourceIfNoneMatch: options.sourceConditions.ifNoneMatch, sourceIfUnmodifiedSince: options.sourceConditions.ifUnmodifiedSince, }, cpkInfo: options.customerProvidedKey, encryptionScope: options.encryptionScope, copySourceAuthorization: httpAuthorizationToString(options.sourceAuthorization) }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Frees the specified pages from the page blob. * @see https://docs.microsoft.com/rest/api/storageservices/put-page * * @param offset - Starting byte position of the pages to clear. * @param count - Number of bytes to clear. * @param options - Options to the Page Blob Clear Pages operation. * @returns Response data for the Page Blob Clear Pages operation. */ async clearPages(offset = 0, count, options = {}) { var _a; options.conditions = options.conditions || {}; const { span, updatedOptions } = createSpan("PageBlobClient-clearPages", options); try { return await this.pageBlobContext.clearPages(0, Object.assign({ abortSignal: options.abortSignal, leaseAccessConditions: options.conditions, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }), range: rangeToString({ offset, count }), sequenceNumberAccessConditions: options.conditions, cpkInfo: options.customerProvidedKey, encryptionScope: options.encryptionScope }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Returns the list of valid page ranges for a page blob or snapshot of a page blob. * @see https://docs.microsoft.com/rest/api/storageservices/get-page-ranges * * @param offset - Starting byte position of the page ranges. * @param count - Number of bytes to get. * @param options - Options to the Page Blob Get Ranges operation. * @returns Response data for the Page Blob Get Ranges operation. */ async getPageRanges(offset = 0, count, options = {}) { var _a; options.conditions = options.conditions || {}; const { span, updatedOptions } = createSpan("PageBlobClient-getPageRanges", options); try { return await this.pageBlobContext .getPageRanges(Object.assign({ abortSignal: options.abortSignal, leaseAccessConditions: options.conditions, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }), range: rangeToString({ offset, count }) }, convertTracingToRequestOptionsBase(updatedOptions))) .then(rangeResponseFromModel); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * getPageRangesSegment returns a single segment of page ranges starting from the * specified Marker. Use an empty Marker to start enumeration from the beginning. * After getting a segment, process it, and then call getPageRangesSegment again * (passing the the previously-returned Marker) to get the next segment. * @see https://docs.microsoft.com/rest/api/storageservices/get-page-ranges * * @param offset - Starting byte position of the page ranges. * @param count - Number of bytes to get. * @param marker - A string value that identifies the portion of the list to be returned with the next list operation. * @param options - Options to PageBlob Get Page Ranges Segment operation. */ async listPageRangesSegment(offset = 0, count, marker, options = {}) { var _a; const { span, updatedOptions } = createSpan("PageBlobClient-getPageRangesSegment", options); try { return await this.pageBlobContext.getPageRanges(Object.assign({ abortSignal: options.abortSignal, leaseAccessConditions: options.conditions, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }), range: rangeToString({ offset, count }), marker: marker, maxPageSize: options.maxPageSize }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Returns an AsyncIterableIterator for {@link PageBlobGetPageRangesResponseModel} * * @param offset - Starting byte position of the page ranges. * @param count - Number of bytes to get. * @param marker - A string value that identifies the portion of * the get of page ranges to be returned with the next getting operation. The * operation returns the ContinuationToken value within the response body if the * getting operation did not return all page ranges remaining within the current page. * The ContinuationToken value can be used as the value for * the marker parameter in a subsequent call to request the next page of get * items. The marker value is opaque to the client. * @param options - Options to List Page Ranges operation. */ listPageRangeItemSegments(offset = 0, count, marker, options = {}) { return tslib.__asyncGenerator(this, arguments, function* listPageRangeItemSegments_1() { let getPageRangeItemSegmentsResponse; if (!!marker || marker === undefined) { do { getPageRangeItemSegmentsResponse = yield tslib.__await(this.listPageRangesSegment(offset, count, marker, options)); marker = getPageRangeItemSegmentsResponse.continuationToken; yield yield tslib.__await(yield tslib.__await(getPageRangeItemSegmentsResponse)); } while (marker); } }); } /** * Returns an AsyncIterableIterator of {@link PageRangeInfo} objects * * @param offset - Starting byte position of the page ranges. * @param count - Number of bytes to get. * @param options - Options to List Page Ranges operation. */ listPageRangeItems(offset = 0, count, options = {}) { return tslib.__asyncGenerator(this, arguments, function* listPageRangeItems_1() { var e_1, _a; let marker; try { for (var _b = tslib.__asyncValues(this.listPageRangeItemSegments(offset, count, marker, options)), _c; _c = yield tslib.__await(_b.next()), !_c.done;) { const getPageRangesSegment = _c.value; yield tslib.__await(yield* tslib.__asyncDelegator(tslib.__asyncValues(ExtractPageRangeInfoItems(getPageRangesSegment)))); } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) yield tslib.__await(_a.call(_b)); } finally { if (e_1) throw e_1.error; } } }); } /** * Returns an async iterable iterator to list of page ranges for a page blob. * @see https://docs.microsoft.com/rest/api/storageservices/get-page-ranges * * .byPage() returns an async iterable iterator to list of page ranges for a page blob. * * Example using `for await` syntax: * * ```js * // Get the pageBlobClient before you run these snippets, * // Can be obtained from `blobServiceClient.getContainerClient("").getPageBlobClient("");` * let i = 1; * for await (const pageRange of pageBlobClient.listPageRanges()) { * console.log(`Page range ${i++}: ${pageRange.start} - ${pageRange.end}`); * } * ``` * * Example using `iter.next()`: * * ```js * let i = 1; * let iter = pageBlobClient.listPageRanges(); * let pageRangeItem = await iter.next(); * while (!pageRangeItem.done) { * console.log(`Page range ${i++}: ${pageRangeItem.value.start} - ${pageRangeItem.value.end}, IsClear: ${pageRangeItem.value.isClear}`); * pageRangeItem = await iter.next(); * } * ``` * * Example using `byPage()`: * * ```js * // passing optional maxPageSize in the page settings * let i = 1; * for await (const response of pageBlobClient.listPageRanges().byPage({ maxPageSize: 20 })) { * for (const pageRange of response) { * console.log(`Page range ${i++}: ${pageRange.start} - ${pageRange.end}`); * } * } * ``` * * Example using paging with a marker: * * ```js * let i = 1; * let iterator = pageBlobClient.listPageRanges().byPage({ maxPageSize: 2 }); * let response = (await iterator.next()).value; * * // Prints 2 page ranges * for (const pageRange of response) { * console.log(`Page range ${i++}: ${pageRange.start} - ${pageRange.end}`); * } * * // Gets next marker * let marker = response.continuationToken; * * // Passing next marker as continuationToken * * iterator = pageBlobClient.listPageRanges().byPage({ continuationToken: marker, maxPageSize: 10 }); * response = (await iterator.next()).value; * * // Prints 10 page ranges * for (const blob of response) { * console.log(`Page range ${i++}: ${pageRange.start} - ${pageRange.end}`); * } * ``` * @param offset - Starting byte position of the page ranges. * @param count - Number of bytes to get. * @param options - Options to the Page Blob Get Ranges operation. * @returns An asyncIterableIterator that supports paging. */ listPageRanges(offset = 0, count, options = {}) { options.conditions = options.conditions || {}; // AsyncIterableIterator to iterate over blobs const iter = this.listPageRangeItems(offset, count, options); return { /** * The next method, part of the iteration protocol */ next() { return iter.next(); }, /** * The connection to the async iterator, part of the iteration protocol */ [Symbol.asyncIterator]() { return this; }, /** * Return an AsyncIterableIterator that works a page at a time */ byPage: (settings = {}) => { return this.listPageRangeItemSegments(offset, count, settings.continuationToken, Object.assign({ maxPageSize: settings.maxPageSize }, options)); }, }; } /** * Gets the collection of page ranges that differ between a specified snapshot and this page blob. * @see https://docs.microsoft.com/rest/api/storageservices/get-page-ranges * * @param offset - Starting byte position of the page blob * @param count - Number of bytes to get ranges diff. * @param prevSnapshot - Timestamp of snapshot to retrieve the difference. * @param options - Options to the Page Blob Get Page Ranges Diff operation. * @returns Response data for the Page Blob Get Page Range Diff operation. */ async getPageRangesDiff(offset, count, prevSnapshot, options = {}) { var _a; options.conditions = options.conditions || {}; const { span, updatedOptions } = createSpan("PageBlobClient-getPageRangesDiff", options); try { return await this.pageBlobContext .getPageRangesDiff(Object.assign({ abortSignal: options.abortSignal, leaseAccessConditions: options.conditions, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }), prevsnapshot: prevSnapshot, range: rangeToString({ offset, count }) }, convertTracingToRequestOptionsBase(updatedOptions))) .then(rangeResponseFromModel); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * getPageRangesDiffSegment returns a single segment of page ranges starting from the * specified Marker for difference between previous snapshot and the target page blob. * Use an empty Marker to start enumeration from the beginning. * After getting a segment, process it, and then call getPageRangesDiffSegment again * (passing the the previously-returned Marker) to get the next segment. * @see https://docs.microsoft.com/rest/api/storageservices/get-page-ranges * * @param offset - Starting byte position of the page ranges. * @param count - Number of bytes to get. * @param prevSnapshotOrUrl - Timestamp of snapshot to retrieve the difference or URL of snapshot to retrieve the difference. * @param marker - A string value that identifies the portion of the get to be returned with the next get operation. * @param options - Options to the Page Blob Get Page Ranges Diff operation. */ async listPageRangesDiffSegment(offset, count, prevSnapshotOrUrl, marker, options) { var _a; const { span, updatedOptions } = createSpan("PageBlobClient-getPageRangesDiffSegment", options); try { return await this.pageBlobContext.getPageRangesDiff(Object.assign({ abortSignal: options === null || options === void 0 ? void 0 : options.abortSignal, leaseAccessConditions: options === null || options === void 0 ? void 0 : options.conditions, modifiedAccessConditions: Object.assign(Object.assign({}, options === null || options === void 0 ? void 0 : options.conditions), { ifTags: (_a = options === null || options === void 0 ? void 0 : options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }), prevsnapshot: prevSnapshotOrUrl, range: rangeToString({ offset: offset, count: count, }), marker: marker, maxPageSize: options === null || options === void 0 ? void 0 : options.maxPageSize }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Returns an AsyncIterableIterator for {@link PageBlobGetPageRangesDiffResponseModel} * * * @param offset - Starting byte position of the page ranges. * @param count - Number of bytes to get. * @param prevSnapshotOrUrl - Timestamp of snapshot to retrieve the difference or URL of snapshot to retrieve the difference. * @param marker - A string value that identifies the portion of * the get of page ranges to be returned with the next getting operation. The * operation returns the ContinuationToken value within the response body if the * getting operation did not return all page ranges remaining within the current page. * The ContinuationToken value can be used as the value for * the marker parameter in a subsequent call to request the next page of get * items. The marker value is opaque to the client. * @param options - Options to the Page Blob Get Page Ranges Diff operation. */ listPageRangeDiffItemSegments(offset, count, prevSnapshotOrUrl, marker, options) { return tslib.__asyncGenerator(this, arguments, function* listPageRangeDiffItemSegments_1() { let getPageRangeItemSegmentsResponse; if (!!marker || marker === undefined) { do { getPageRangeItemSegmentsResponse = yield tslib.__await(this.listPageRangesDiffSegment(offset, count, prevSnapshotOrUrl, marker, options)); marker = getPageRangeItemSegmentsResponse.continuationToken; yield yield tslib.__await(yield tslib.__await(getPageRangeItemSegmentsResponse)); } while (marker); } }); } /** * Returns an AsyncIterableIterator of {@link PageRangeInfo} objects * * @param offset - Starting byte position of the page ranges. * @param count - Number of bytes to get. * @param prevSnapshotOrUrl - Timestamp of snapshot to retrieve the difference or URL of snapshot to retrieve the difference. * @param options - Options to the Page Blob Get Page Ranges Diff operation. */ listPageRangeDiffItems(offset, count, prevSnapshotOrUrl, options) { return tslib.__asyncGenerator(this, arguments, function* listPageRangeDiffItems_1() { var e_2, _a; let marker; try { for (var _b = tslib.__asyncValues(this.listPageRangeDiffItemSegments(offset, count, prevSnapshotOrUrl, marker, options)), _c; _c = yield tslib.__await(_b.next()), !_c.done;) { const getPageRangesSegment = _c.value; yield tslib.__await(yield* tslib.__asyncDelegator(tslib.__asyncValues(ExtractPageRangeInfoItems(getPageRangesSegment)))); } } catch (e_2_1) { e_2 = { error: e_2_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) yield tslib.__await(_a.call(_b)); } finally { if (e_2) throw e_2.error; } } }); } /** * Returns an async iterable iterator to list of page ranges that differ between a specified snapshot and this page blob. * @see https://docs.microsoft.com/rest/api/storageservices/get-page-ranges * * .byPage() returns an async iterable iterator to list of page ranges that differ between a specified snapshot and this page blob. * * Example using `for await` syntax: * * ```js * // Get the pageBlobClient before you run these snippets, * // Can be obtained from `blobServiceClient.getContainerClient("").getPageBlobClient("");` * let i = 1; * for await (const pageRange of pageBlobClient.listPageRangesDiff()) { * console.log(`Page range ${i++}: ${pageRange.start} - ${pageRange.end}`); * } * ``` * * Example using `iter.next()`: * * ```js * let i = 1; * let iter = pageBlobClient.listPageRangesDiff(); * let pageRangeItem = await iter.next(); * while (!pageRangeItem.done) { * console.log(`Page range ${i++}: ${pageRangeItem.value.start} - ${pageRangeItem.value.end}, IsClear: ${pageRangeItem.value.isClear}`); * pageRangeItem = await iter.next(); * } * ``` * * Example using `byPage()`: * * ```js * // passing optional maxPageSize in the page settings * let i = 1; * for await (const response of pageBlobClient.listPageRangesDiff().byPage({ maxPageSize: 20 })) { * for (const pageRange of response) { * console.log(`Page range ${i++}: ${pageRange.start} - ${pageRange.end}`); * } * } * ``` * * Example using paging with a marker: * * ```js * let i = 1; * let iterator = pageBlobClient.listPageRangesDiff().byPage({ maxPageSize: 2 }); * let response = (await iterator.next()).value; * * // Prints 2 page ranges * for (const pageRange of response) { * console.log(`Page range ${i++}: ${pageRange.start} - ${pageRange.end}`); * } * * // Gets next marker * let marker = response.continuationToken; * * // Passing next marker as continuationToken * * iterator = pageBlobClient.listPageRangesDiff().byPage({ continuationToken: marker, maxPageSize: 10 }); * response = (await iterator.next()).value; * * // Prints 10 page ranges * for (const blob of response) { * console.log(`Page range ${i++}: ${pageRange.start} - ${pageRange.end}`); * } * ``` * @param offset - Starting byte position of the page ranges. * @param count - Number of bytes to get. * @param prevSnapshot - Timestamp of snapshot to retrieve the difference. * @param options - Options to the Page Blob Get Ranges operation. * @returns An asyncIterableIterator that supports paging. */ listPageRangesDiff(offset, count, prevSnapshot, options = {}) { options.conditions = options.conditions || {}; // AsyncIterableIterator to iterate over blobs const iter = this.listPageRangeDiffItems(offset, count, prevSnapshot, Object.assign({}, options)); return { /** * The next method, part of the iteration protocol */ next() { return iter.next(); }, /** * The connection to the async iterator, part of the iteration protocol */ [Symbol.asyncIterator]() { return this; }, /** * Return an AsyncIterableIterator that works a page at a time */ byPage: (settings = {}) => { return this.listPageRangeDiffItemSegments(offset, count, prevSnapshot, settings.continuationToken, Object.assign({ maxPageSize: settings.maxPageSize }, options)); }, }; } /** * Gets the collection of page ranges that differ between a specified snapshot and this page blob for managed disks. * @see https://docs.microsoft.com/rest/api/storageservices/get-page-ranges * * @param offset - Starting byte position of the page blob * @param count - Number of bytes to get ranges diff. * @param prevSnapshotUrl - URL of snapshot to retrieve the difference. * @param options - Options to the Page Blob Get Page Ranges Diff operation. * @returns Response data for the Page Blob Get Page Range Diff operation. */ async getPageRangesDiffForManagedDisks(offset, count, prevSnapshotUrl, options = {}) { var _a; options.conditions = options.conditions || {}; const { span, updatedOptions } = createSpan("PageBlobClient-GetPageRangesDiffForManagedDisks", options); try { return await this.pageBlobContext .getPageRangesDiff(Object.assign({ abortSignal: options.abortSignal, leaseAccessConditions: options.conditions, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }), prevSnapshotUrl, range: rangeToString({ offset, count }) }, convertTracingToRequestOptionsBase(updatedOptions))) .then(rangeResponseFromModel); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Resizes the page blob to the specified size (which must be a multiple of 512). * @see https://docs.microsoft.com/rest/api/storageservices/set-blob-properties * * @param size - Target size * @param options - Options to the Page Blob Resize operation. * @returns Response data for the Page Blob Resize operation. */ async resize(size, options = {}) { var _a; options.conditions = options.conditions || {}; const { span, updatedOptions } = createSpan("PageBlobClient-resize", options); try { return await this.pageBlobContext.resize(size, Object.assign({ abortSignal: options.abortSignal, leaseAccessConditions: options.conditions, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }), encryptionScope: options.encryptionScope }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Sets a page blob's sequence number. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/set-blob-properties * * @param sequenceNumberAction - Indicates how the service should modify the blob's sequence number. * @param sequenceNumber - Required if sequenceNumberAction is max or update * @param options - Options to the Page Blob Update Sequence Number operation. * @returns Response data for the Page Blob Update Sequence Number operation. */ async updateSequenceNumber(sequenceNumberAction, sequenceNumber, options = {}) { var _a; options.conditions = options.conditions || {}; const { span, updatedOptions } = createSpan("PageBlobClient-updateSequenceNumber", options); try { return await this.pageBlobContext.updateSequenceNumber(sequenceNumberAction, Object.assign({ abortSignal: options.abortSignal, blobSequenceNumber: sequenceNumber, leaseAccessConditions: options.conditions, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }) }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Begins an operation to start an incremental copy from one page blob's snapshot to this page blob. * The snapshot is copied such that only the differential changes between the previously * copied snapshot are transferred to the destination. * The copied snapshots are complete copies of the original snapshot and can be read or copied from as usual. * @see https://docs.microsoft.com/rest/api/storageservices/incremental-copy-blob * @see https://docs.microsoft.com/en-us/azure/virtual-machines/windows/incremental-snapshots * * @param copySource - Specifies the name of the source page blob snapshot. For example, * https://myaccount.blob.core.windows.net/mycontainer/myblob?snapshot= * @param options - Options to the Page Blob Copy Incremental operation. * @returns Response data for the Page Blob Copy Incremental operation. */ async startCopyIncremental(copySource, options = {}) { var _a; const { span, updatedOptions } = createSpan("PageBlobClient-startCopyIncremental", options); try { return await this.pageBlobContext.copyIncremental(copySource, Object.assign({ abortSignal: options.abortSignal, modifiedAccessConditions: Object.assign(Object.assign({}, options.conditions), { ifTags: (_a = options.conditions) === null || _a === void 0 ? void 0 : _a.tagConditions }) }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } } // Copyright (c) Microsoft Corporation. async function getBodyAsText(batchResponse) { let buffer = Buffer.alloc(BATCH_MAX_PAYLOAD_IN_BYTES); const responseLength = await streamToBuffer2(batchResponse.readableStreamBody, buffer); // Slice the buffer to trim the empty ending. buffer = buffer.slice(0, responseLength); return buffer.toString(); } function utf8ByteLength(str) { return Buffer.byteLength(str); } // Copyright (c) Microsoft Corporation. const HTTP_HEADER_DELIMITER = ": "; const SPACE_DELIMITER = " "; const NOT_FOUND = -1; /** * Util class for parsing batch response. */ class BatchResponseParser { constructor(batchResponse, subRequests) { if (!batchResponse || !batchResponse.contentType) { // In special case(reported), server may return invalid content-type which could not be parsed. throw new RangeError("batchResponse is malformed or doesn't contain valid content-type."); } if (!subRequests || subRequests.size === 0) { // This should be prevent during coding. throw new RangeError("Invalid state: subRequests is not provided or size is 0."); } this.batchResponse = batchResponse; this.subRequests = subRequests; this.responseBatchBoundary = this.batchResponse.contentType.split("=")[1]; this.perResponsePrefix = `--${this.responseBatchBoundary}${HTTP_LINE_ENDING}`; this.batchResponseEnding = `--${this.responseBatchBoundary}--`; } // For example of response, please refer to https://docs.microsoft.com/en-us/rest/api/storageservices/blob-batch#response async parseBatchResponse() { // When logic reach here, suppose batch request has already succeeded with 202, so we can further parse // sub request's response. if (this.batchResponse._response.status !== HTTPURLConnection.HTTP_ACCEPTED) { throw new Error(`Invalid state: batch request failed with status: '${this.batchResponse._response.status}'.`); } const responseBodyAsText = await getBodyAsText(this.batchResponse); const subResponses = responseBodyAsText .split(this.batchResponseEnding)[0] // string after ending is useless .split(this.perResponsePrefix) .slice(1); // string before first response boundary is useless const subResponseCount = subResponses.length; // Defensive coding in case of potential error parsing. // Note: subResponseCount == 1 is special case where sub request is invalid. // We try to prevent such cases through early validation, e.g. validate sub request count >= 1. // While in unexpected sub request invalid case, we allow sub response to be parsed and return to user. if (subResponseCount !== this.subRequests.size && subResponseCount !== 1) { throw new Error("Invalid state: sub responses' count is not equal to sub requests' count."); } const deserializedSubResponses = new Array(subResponseCount); let subResponsesSucceededCount = 0; let subResponsesFailedCount = 0; // Parse sub subResponses. for (let index = 0; index < subResponseCount; index++) { const subResponse = subResponses[index]; const deserializedSubResponse = {}; deserializedSubResponse.headers = new coreHttp.HttpHeaders(); const responseLines = subResponse.split(`${HTTP_LINE_ENDING}`); let subRespHeaderStartFound = false; let subRespHeaderEndFound = false; let subRespFailed = false; let contentId = NOT_FOUND; for (const responseLine of responseLines) { if (!subRespHeaderStartFound) { // Convention line to indicate content ID if (responseLine.startsWith(HeaderConstants.CONTENT_ID)) { contentId = parseInt(responseLine.split(HTTP_HEADER_DELIMITER)[1]); } // Http version line with status code indicates the start of sub request's response. // Example: HTTP/1.1 202 Accepted if (responseLine.startsWith(HTTP_VERSION_1_1)) { subRespHeaderStartFound = true; const tokens = responseLine.split(SPACE_DELIMITER); deserializedSubResponse.status = parseInt(tokens[1]); deserializedSubResponse.statusMessage = tokens.slice(2).join(SPACE_DELIMITER); } continue; // Skip convention headers not specifically for sub request i.e. Content-Type: application/http and Content-ID: * } if (responseLine.trim() === "") { // Sub response's header start line already found, and the first empty line indicates header end line found. if (!subRespHeaderEndFound) { subRespHeaderEndFound = true; } continue; // Skip empty line } // Note: when code reach here, it indicates subRespHeaderStartFound == true if (!subRespHeaderEndFound) { if (responseLine.indexOf(HTTP_HEADER_DELIMITER) === -1) { // Defensive coding to prevent from missing valuable lines. throw new Error(`Invalid state: find non-empty line '${responseLine}' without HTTP header delimiter '${HTTP_HEADER_DELIMITER}'.`); } // Parse headers of sub response. const tokens = responseLine.split(HTTP_HEADER_DELIMITER); deserializedSubResponse.headers.set(tokens[0], tokens[1]); if (tokens[0] === HeaderConstants.X_MS_ERROR_CODE) { deserializedSubResponse.errorCode = tokens[1]; subRespFailed = true; } } else { // Assemble body of sub response. if (!deserializedSubResponse.bodyAsText) { deserializedSubResponse.bodyAsText = ""; } deserializedSubResponse.bodyAsText += responseLine; } } // Inner for end // The response will contain the Content-ID header for each corresponding subrequest response to use for tracking. // The Content-IDs are set to a valid index in the subrequests we sent. In the status code 202 path, we could expect it // to be 1-1 mapping from the [0, subRequests.size) to the Content-IDs returned. If not, we simply don't return that // unexpected subResponse in the parsed reponse and we can always look it up in the raw response for debugging purpose. if (contentId !== NOT_FOUND && Number.isInteger(contentId) && contentId >= 0 && contentId < this.subRequests.size && deserializedSubResponses[contentId] === undefined) { deserializedSubResponse._request = this.subRequests.get(contentId); deserializedSubResponses[contentId] = deserializedSubResponse; } else { logger.error(`subResponses[${index}] is dropped as the Content-ID is not found or invalid, Content-ID: ${contentId}`); } if (subRespFailed) { subResponsesFailedCount++; } else { subResponsesSucceededCount++; } } return { subResponses: deserializedSubResponses, subResponsesSucceededCount: subResponsesSucceededCount, subResponsesFailedCount: subResponsesFailedCount, }; } } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. var MutexLockStatus; (function (MutexLockStatus) { MutexLockStatus[MutexLockStatus["LOCKED"] = 0] = "LOCKED"; MutexLockStatus[MutexLockStatus["UNLOCKED"] = 1] = "UNLOCKED"; })(MutexLockStatus || (MutexLockStatus = {})); /** * An async mutex lock. */ class Mutex { /** * Lock for a specific key. If the lock has been acquired by another customer, then * will wait until getting the lock. * * @param key - lock key */ static async lock(key) { return new Promise((resolve) => { if (this.keys[key] === undefined || this.keys[key] === MutexLockStatus.UNLOCKED) { this.keys[key] = MutexLockStatus.LOCKED; resolve(); } else { this.onUnlockEvent(key, () => { this.keys[key] = MutexLockStatus.LOCKED; resolve(); }); } }); } /** * Unlock a key. * * @param key - */ static async unlock(key) { return new Promise((resolve) => { if (this.keys[key] === MutexLockStatus.LOCKED) { this.emitUnlockEvent(key); } delete this.keys[key]; resolve(); }); } static onUnlockEvent(key, handler) { if (this.listeners[key] === undefined) { this.listeners[key] = [handler]; } else { this.listeners[key].push(handler); } } static emitUnlockEvent(key) { if (this.listeners[key] !== undefined && this.listeners[key].length > 0) { const handler = this.listeners[key].shift(); setImmediate(() => { handler.call(this); }); } } } Mutex.keys = {}; Mutex.listeners = {}; // Copyright (c) Microsoft Corporation. /** * A BlobBatch represents an aggregated set of operations on blobs. * Currently, only `delete` and `setAccessTier` are supported. */ class BlobBatch { constructor() { this.batch = "batch"; this.batchRequest = new InnerBatchRequest(); } /** * Get the value of Content-Type for a batch request. * The value must be multipart/mixed with a batch boundary. * Example: multipart/mixed; boundary=batch_a81786c8-e301-4e42-a729-a32ca24ae252 */ getMultiPartContentType() { return this.batchRequest.getMultipartContentType(); } /** * Get assembled HTTP request body for sub requests. */ getHttpRequestBody() { return this.batchRequest.getHttpRequestBody(); } /** * Get sub requests that are added into the batch request. */ getSubRequests() { return this.batchRequest.getSubRequests(); } async addSubRequestInternal(subRequest, assembleSubRequestFunc) { await Mutex.lock(this.batch); try { this.batchRequest.preAddSubRequest(subRequest); await assembleSubRequestFunc(); this.batchRequest.postAddSubRequest(subRequest); } finally { await Mutex.unlock(this.batch); } } setBatchType(batchType) { if (!this.batchType) { this.batchType = batchType; } if (this.batchType !== batchType) { throw new RangeError(`BlobBatch only supports one operation type per batch and it already is being used for ${this.batchType} operations.`); } } async deleteBlob(urlOrBlobClient, credentialOrOptions, options) { let url; let credential; if (typeof urlOrBlobClient === "string" && ((coreHttp.isNode && credentialOrOptions instanceof StorageSharedKeyCredential) || credentialOrOptions instanceof AnonymousCredential || coreHttp.isTokenCredential(credentialOrOptions))) { // First overload url = urlOrBlobClient; credential = credentialOrOptions; } else if (urlOrBlobClient instanceof BlobClient) { // Second overload url = urlOrBlobClient.url; credential = urlOrBlobClient.credential; options = credentialOrOptions; } else { throw new RangeError("Invalid arguments. Either url and credential, or BlobClient need be provided."); } if (!options) { options = {}; } const { span, updatedOptions } = createSpan("BatchDeleteRequest-addSubRequest", options); try { this.setBatchType("delete"); await this.addSubRequestInternal({ url: url, credential: credential, }, async () => { await new BlobClient(url, this.batchRequest.createPipeline(credential)).delete(updatedOptions); }); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } async setBlobAccessTier(urlOrBlobClient, credentialOrTier, tierOrOptions, options) { let url; let credential; let tier; if (typeof urlOrBlobClient === "string" && ((coreHttp.isNode && credentialOrTier instanceof StorageSharedKeyCredential) || credentialOrTier instanceof AnonymousCredential || coreHttp.isTokenCredential(credentialOrTier))) { // First overload url = urlOrBlobClient; credential = credentialOrTier; tier = tierOrOptions; } else if (urlOrBlobClient instanceof BlobClient) { // Second overload url = urlOrBlobClient.url; credential = urlOrBlobClient.credential; tier = credentialOrTier; options = tierOrOptions; } else { throw new RangeError("Invalid arguments. Either url and credential, or BlobClient need be provided."); } if (!options) { options = {}; } const { span, updatedOptions } = createSpan("BatchSetTierRequest-addSubRequest", options); try { this.setBatchType("setAccessTier"); await this.addSubRequestInternal({ url: url, credential: credential, }, async () => { await new BlobClient(url, this.batchRequest.createPipeline(credential)).setAccessTier(tier, updatedOptions); }); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } } /** * Inner batch request class which is responsible for assembling and serializing sub requests. * See https://docs.microsoft.com/en-us/rest/api/storageservices/blob-batch#request-body for how requests are assembled. */ class InnerBatchRequest { constructor() { this.operationCount = 0; this.body = ""; const tempGuid = coreHttp.generateUuid(); // batch_{batchid} this.boundary = `batch_${tempGuid}`; // --batch_{batchid} // Content-Type: application/http // Content-Transfer-Encoding: binary this.subRequestPrefix = `--${this.boundary}${HTTP_LINE_ENDING}${HeaderConstants.CONTENT_TYPE}: application/http${HTTP_LINE_ENDING}${HeaderConstants.CONTENT_TRANSFER_ENCODING}: binary`; // multipart/mixed; boundary=batch_{batchid} this.multipartContentType = `multipart/mixed; boundary=${this.boundary}`; // --batch_{batchid}-- this.batchRequestEnding = `--${this.boundary}--`; this.subRequests = new Map(); } /** * Create pipeline to assemble sub requests. The idea here is to use existing * credential and serialization/deserialization components, with additional policies to * filter unnecessary headers, assemble sub requests into request's body * and intercept request from going to wire. * @param credential - Such as AnonymousCredential, StorageSharedKeyCredential or any credential from the `@azure/identity` package to authenticate requests to the service. You can also provide an object that implements the TokenCredential interface. If not specified, AnonymousCredential is used. */ createPipeline(credential) { const isAnonymousCreds = credential instanceof AnonymousCredential; const policyFactoryLength = 3 + (isAnonymousCreds ? 0 : 1); // [deserializationPolicy, BatchHeaderFilterPolicyFactory, (Optional)Credential, BatchRequestAssemblePolicyFactory] const factories = new Array(policyFactoryLength); factories[0] = coreHttp.deserializationPolicy(); // Default deserializationPolicy is provided by protocol layer factories[1] = new BatchHeaderFilterPolicyFactory(); // Use batch header filter policy to exclude unnecessary headers if (!isAnonymousCreds) { factories[2] = coreHttp.isTokenCredential(credential) ? attachCredential(coreHttp.bearerTokenAuthenticationPolicy(credential, StorageOAuthScopes), credential) : credential; } factories[policyFactoryLength - 1] = new BatchRequestAssemblePolicyFactory(this); // Use batch assemble policy to assemble request and intercept request from going to wire return new Pipeline(factories, {}); } appendSubRequestToBody(request) { // Start to assemble sub request this.body += [ this.subRequestPrefix, `${HeaderConstants.CONTENT_ID}: ${this.operationCount}`, "", `${request.method.toString()} ${getURLPathAndQuery(request.url)} ${HTTP_VERSION_1_1}${HTTP_LINE_ENDING}`, // sub request start line with method ].join(HTTP_LINE_ENDING); for (const header of request.headers.headersArray()) { this.body += `${header.name}: ${header.value}${HTTP_LINE_ENDING}`; } this.body += HTTP_LINE_ENDING; // sub request's headers need be ending with an empty line // No body to assemble for current batch request support // End to assemble sub request } preAddSubRequest(subRequest) { if (this.operationCount >= BATCH_MAX_REQUEST) { throw new RangeError(`Cannot exceed ${BATCH_MAX_REQUEST} sub requests in a single batch`); } // Fast fail if url for sub request is invalid const path = getURLPath(subRequest.url); if (!path || path === "") { throw new RangeError(`Invalid url for sub request: '${subRequest.url}'`); } } postAddSubRequest(subRequest) { this.subRequests.set(this.operationCount, subRequest); this.operationCount++; } // Return the http request body with assembling the ending line to the sub request body. getHttpRequestBody() { return `${this.body}${this.batchRequestEnding}${HTTP_LINE_ENDING}`; } getMultipartContentType() { return this.multipartContentType; } getSubRequests() { return this.subRequests; } } class BatchRequestAssemblePolicy extends coreHttp.BaseRequestPolicy { constructor(batchRequest, nextPolicy, options) { super(nextPolicy, options); this.dummyResponse = { request: new coreHttp.WebResource(), status: 200, headers: new coreHttp.HttpHeaders(), }; this.batchRequest = batchRequest; } async sendRequest(request) { await this.batchRequest.appendSubRequestToBody(request); return this.dummyResponse; // Intercept request from going to wire } } class BatchRequestAssemblePolicyFactory { constructor(batchRequest) { this.batchRequest = batchRequest; } create(nextPolicy, options) { return new BatchRequestAssemblePolicy(this.batchRequest, nextPolicy, options); } } class BatchHeaderFilterPolicy extends coreHttp.BaseRequestPolicy { // The base class has a protected constructor. Adding a public one to enable constructing of this class. /* eslint-disable-next-line @typescript-eslint/no-useless-constructor*/ constructor(nextPolicy, options) { super(nextPolicy, options); } async sendRequest(request) { let xMsHeaderName = ""; for (const header of request.headers.headersArray()) { if (iEqual(header.name, HeaderConstants.X_MS_VERSION)) { xMsHeaderName = header.name; } } if (xMsHeaderName !== "") { request.headers.remove(xMsHeaderName); // The subrequests should not have the x-ms-version header. } return this._nextPolicy.sendRequest(request); } } class BatchHeaderFilterPolicyFactory { create(nextPolicy, options) { return new BatchHeaderFilterPolicy(nextPolicy, options); } } // Copyright (c) Microsoft Corporation. /** * A BlobBatchClient allows you to make batched requests to the Azure Storage Blob service. * * @see https://docs.microsoft.com/en-us/rest/api/storageservices/blob-batch */ class BlobBatchClient { constructor(url, credentialOrPipeline, // Legacy, no fix for eslint error without breaking. Disable it for this interface. /* eslint-disable-next-line @azure/azure-sdk/ts-naming-options*/ options) { let pipeline; if (isPipelineLike(credentialOrPipeline)) { pipeline = credentialOrPipeline; } else if (!credentialOrPipeline) { // no credential provided pipeline = newPipeline(new AnonymousCredential(), options); } else { pipeline = newPipeline(credentialOrPipeline, options); } const storageClientContext = new StorageClientContext(url, pipeline.toServiceClientOptions()); const path = getURLPath(url); if (path && path !== "/") { // Container scoped. this.serviceOrContainerContext = new Container(storageClientContext); } else { this.serviceOrContainerContext = new Service(storageClientContext); } } /** * Creates a {@link BlobBatch}. * A BlobBatch represents an aggregated set of operations on blobs. */ createBatch() { return new BlobBatch(); } async deleteBlobs(urlsOrBlobClients, credentialOrOptions, // Legacy, no fix for eslint error without breaking. Disable it for this interface. /* eslint-disable-next-line @azure/azure-sdk/ts-naming-options*/ options) { const batch = new BlobBatch(); for (const urlOrBlobClient of urlsOrBlobClients) { if (typeof urlOrBlobClient === "string") { await batch.deleteBlob(urlOrBlobClient, credentialOrOptions, options); } else { await batch.deleteBlob(urlOrBlobClient, credentialOrOptions); } } return this.submitBatch(batch); } async setBlobsAccessTier(urlsOrBlobClients, credentialOrTier, tierOrOptions, // Legacy, no fix for eslint error without breaking. Disable it for this interface. /* eslint-disable-next-line @azure/azure-sdk/ts-naming-options*/ options) { const batch = new BlobBatch(); for (const urlOrBlobClient of urlsOrBlobClients) { if (typeof urlOrBlobClient === "string") { await batch.setBlobAccessTier(urlOrBlobClient, credentialOrTier, tierOrOptions, options); } else { await batch.setBlobAccessTier(urlOrBlobClient, credentialOrTier, tierOrOptions); } } return this.submitBatch(batch); } /** * Submit batch request which consists of multiple subrequests. * * Get `blobBatchClient` and other details before running the snippets. * `blobServiceClient.getBlobBatchClient()` gives the `blobBatchClient` * * Example usage: * * ```js * let batchRequest = new BlobBatch(); * await batchRequest.deleteBlob(urlInString0, credential0); * await batchRequest.deleteBlob(urlInString1, credential1, { * deleteSnapshots: "include" * }); * const batchResp = await blobBatchClient.submitBatch(batchRequest); * console.log(batchResp.subResponsesSucceededCount); * ``` * * Example using a lease: * * ```js * let batchRequest = new BlobBatch(); * await batchRequest.setBlobAccessTier(blockBlobClient0, "Cool"); * await batchRequest.setBlobAccessTier(blockBlobClient1, "Cool", { * conditions: { leaseId: leaseId } * }); * const batchResp = await blobBatchClient.submitBatch(batchRequest); * console.log(batchResp.subResponsesSucceededCount); * ``` * * @see https://docs.microsoft.com/en-us/rest/api/storageservices/blob-batch * * @param batchRequest - A set of Delete or SetTier operations. * @param options - */ async submitBatch(batchRequest, options = {}) { if (!batchRequest || batchRequest.getSubRequests().size === 0) { throw new RangeError("Batch request should contain one or more sub requests."); } const { span, updatedOptions } = createSpan("BlobBatchClient-submitBatch", options); try { const batchRequestBody = batchRequest.getHttpRequestBody(); // ServiceSubmitBatchResponseModel and ContainerSubmitBatchResponse are compatible for now. const rawBatchResponse = await this.serviceOrContainerContext.submitBatch(utf8ByteLength(batchRequestBody), batchRequest.getMultiPartContentType(), batchRequestBody, Object.assign(Object.assign({}, options), convertTracingToRequestOptionsBase(updatedOptions))); // Parse the sub responses result, if logic reaches here(i.e. the batch request succeeded with status code 202). const batchResponseParser = new BatchResponseParser(rawBatchResponse, batchRequest.getSubRequests()); const responseSummary = await batchResponseParser.parseBatchResponse(); const res = { _response: rawBatchResponse._response, contentType: rawBatchResponse.contentType, errorCode: rawBatchResponse.errorCode, requestId: rawBatchResponse.requestId, clientRequestId: rawBatchResponse.clientRequestId, version: rawBatchResponse.version, subResponses: responseSummary.subResponses, subResponsesSucceededCount: responseSummary.subResponsesSucceededCount, subResponsesFailedCount: responseSummary.subResponsesFailedCount, }; return res; } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } } /** * A ContainerClient represents a URL to the Azure Storage container allowing you to manipulate its blobs. */ class ContainerClient extends StorageClient { constructor(urlOrConnectionString, credentialOrPipelineOrContainerName, // Legacy, no fix for eslint error without breaking. Disable it for this interface. /* eslint-disable-next-line @azure/azure-sdk/ts-naming-options*/ options) { let pipeline; let url; options = options || {}; if (isPipelineLike(credentialOrPipelineOrContainerName)) { // (url: string, pipeline: Pipeline) url = urlOrConnectionString; pipeline = credentialOrPipelineOrContainerName; } else if ((coreHttp.isNode && credentialOrPipelineOrContainerName instanceof StorageSharedKeyCredential) || credentialOrPipelineOrContainerName instanceof AnonymousCredential || coreHttp.isTokenCredential(credentialOrPipelineOrContainerName)) { // (url: string, credential?: StorageSharedKeyCredential | AnonymousCredential | TokenCredential, options?: StoragePipelineOptions) url = urlOrConnectionString; pipeline = newPipeline(credentialOrPipelineOrContainerName, options); } else if (!credentialOrPipelineOrContainerName && typeof credentialOrPipelineOrContainerName !== "string") { // (url: string, credential?: StorageSharedKeyCredential | AnonymousCredential | TokenCredential, options?: StoragePipelineOptions) // The second parameter is undefined. Use anonymous credential. url = urlOrConnectionString; pipeline = newPipeline(new AnonymousCredential(), options); } else if (credentialOrPipelineOrContainerName && typeof credentialOrPipelineOrContainerName === "string") { // (connectionString: string, containerName: string, blobName: string, options?: StoragePipelineOptions) const containerName = credentialOrPipelineOrContainerName; const extractedCreds = extractConnectionStringParts(urlOrConnectionString); if (extractedCreds.kind === "AccountConnString") { if (coreHttp.isNode) { const sharedKeyCredential = new StorageSharedKeyCredential(extractedCreds.accountName, extractedCreds.accountKey); url = appendToURLPath(extractedCreds.url, encodeURIComponent(containerName)); if (!options.proxyOptions) { options.proxyOptions = coreHttp.getDefaultProxySettings(extractedCreds.proxyUri); } pipeline = newPipeline(sharedKeyCredential, options); } else { throw new Error("Account connection string is only supported in Node.js environment"); } } else if (extractedCreds.kind === "SASConnString") { url = appendToURLPath(extractedCreds.url, encodeURIComponent(containerName)) + "?" + extractedCreds.accountSas; pipeline = newPipeline(new AnonymousCredential(), options); } else { throw new Error("Connection string must be either an Account connection string or a SAS connection string"); } } else { throw new Error("Expecting non-empty strings for containerName parameter"); } super(url, pipeline); this._containerName = this.getContainerNameFromUrl(); this.containerContext = new Container(this.storageClientContext); } /** * The name of the container. */ get containerName() { return this._containerName; } /** * Creates a new container under the specified account. If the container with * the same name already exists, the operation fails. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/create-container * Naming rules: @see https://learn.microsoft.com/rest/api/storageservices/naming-and-referencing-containers--blobs--and-metadata * * @param options - Options to Container Create operation. * * * Example usage: * * ```js * const containerClient = blobServiceClient.getContainerClient(""); * const createContainerResponse = await containerClient.create(); * console.log("Container was created successfully", createContainerResponse.requestId); * ``` */ async create(options = {}) { const { span, updatedOptions } = createSpan("ContainerClient-create", options); try { // Spread operator in destructuring assignments, // this will filter out unwanted properties from the response object into result object return await this.containerContext.create(Object.assign(Object.assign({}, options), convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Creates a new container under the specified account. If the container with * the same name already exists, it is not changed. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/create-container * Naming rules: @see https://learn.microsoft.com/rest/api/storageservices/naming-and-referencing-containers--blobs--and-metadata * * @param options - */ async createIfNotExists(options = {}) { var _a, _b; const { span, updatedOptions } = createSpan("ContainerClient-createIfNotExists", options); try { const res = await this.create(updatedOptions); return Object.assign(Object.assign({ succeeded: true }, res), { _response: res._response }); } catch (e) { if (((_a = e.details) === null || _a === void 0 ? void 0 : _a.errorCode) === "ContainerAlreadyExists") { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: "Expected exception when creating a container only if it does not already exist.", }); return Object.assign(Object.assign({ succeeded: false }, (_b = e.response) === null || _b === void 0 ? void 0 : _b.parsedHeaders), { _response: e.response }); } span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Returns true if the Azure container resource represented by this client exists; false otherwise. * * NOTE: use this function with care since an existing container might be deleted by other clients or * applications. Vice versa new containers with the same name might be added by other clients or * applications after this function completes. * * @param options - */ async exists(options = {}) { const { span, updatedOptions } = createSpan("ContainerClient-exists", options); try { await this.getProperties({ abortSignal: options.abortSignal, tracingOptions: updatedOptions.tracingOptions, }); return true; } catch (e) { if (e.statusCode === 404) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: "Expected exception when checking container existence", }); return false; } span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Creates a {@link BlobClient} * * @param blobName - A blob name * @returns A new BlobClient object for the given blob name. */ getBlobClient(blobName) { return new BlobClient(appendToURLPath(this.url, EscapePath(blobName)), this.pipeline); } /** * Creates an {@link AppendBlobClient} * * @param blobName - An append blob name */ getAppendBlobClient(blobName) { return new AppendBlobClient(appendToURLPath(this.url, EscapePath(blobName)), this.pipeline); } /** * Creates a {@link BlockBlobClient} * * @param blobName - A block blob name * * * Example usage: * * ```js * const content = "Hello world!"; * * const blockBlobClient = containerClient.getBlockBlobClient(""); * const uploadBlobResponse = await blockBlobClient.upload(content, content.length); * ``` */ getBlockBlobClient(blobName) { return new BlockBlobClient(appendToURLPath(this.url, EscapePath(blobName)), this.pipeline); } /** * Creates a {@link PageBlobClient} * * @param blobName - A page blob name */ getPageBlobClient(blobName) { return new PageBlobClient(appendToURLPath(this.url, EscapePath(blobName)), this.pipeline); } /** * Returns all user-defined metadata and system properties for the specified * container. The data returned does not include the container's list of blobs. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/get-container-properties * * WARNING: The `metadata` object returned in the response will have its keys in lowercase, even if * they originally contained uppercase characters. This differs from the metadata keys returned by * the `listContainers` method of {@link BlobServiceClient} using the `includeMetadata` option, which * will retain their original casing. * * @param options - Options to Container Get Properties operation. */ async getProperties(options = {}) { if (!options.conditions) { options.conditions = {}; } const { span, updatedOptions } = createSpan("ContainerClient-getProperties", options); try { return await this.containerContext.getProperties(Object.assign(Object.assign({ abortSignal: options.abortSignal }, options.conditions), convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Marks the specified container for deletion. The container and any blobs * contained within it are later deleted during garbage collection. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/delete-container * * @param options - Options to Container Delete operation. */ async delete(options = {}) { if (!options.conditions) { options.conditions = {}; } const { span, updatedOptions } = createSpan("ContainerClient-delete", options); try { return await this.containerContext.delete(Object.assign({ abortSignal: options.abortSignal, leaseAccessConditions: options.conditions, modifiedAccessConditions: options.conditions }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Marks the specified container for deletion if it exists. The container and any blobs * contained within it are later deleted during garbage collection. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/delete-container * * @param options - Options to Container Delete operation. */ async deleteIfExists(options = {}) { var _a, _b; const { span, updatedOptions } = createSpan("ContainerClient-deleteIfExists", options); try { const res = await this.delete(updatedOptions); return Object.assign(Object.assign({ succeeded: true }, res), { _response: res._response }); } catch (e) { if (((_a = e.details) === null || _a === void 0 ? void 0 : _a.errorCode) === "ContainerNotFound") { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: "Expected exception when deleting a container only if it exists.", }); return Object.assign(Object.assign({ succeeded: false }, (_b = e.response) === null || _b === void 0 ? void 0 : _b.parsedHeaders), { _response: e.response }); } span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Sets one or more user-defined name-value pairs for the specified container. * * If no option provided, or no metadata defined in the parameter, the container * metadata will be removed. * * @see https://docs.microsoft.com/en-us/rest/api/storageservices/set-container-metadata * * @param metadata - Replace existing metadata with this value. * If no value provided the existing metadata will be removed. * @param options - Options to Container Set Metadata operation. */ async setMetadata(metadata, options = {}) { if (!options.conditions) { options.conditions = {}; } if (options.conditions.ifUnmodifiedSince) { throw new RangeError("the IfUnmodifiedSince must have their default values because they are ignored by the blob service"); } const { span, updatedOptions } = createSpan("ContainerClient-setMetadata", options); try { return await this.containerContext.setMetadata(Object.assign({ abortSignal: options.abortSignal, leaseAccessConditions: options.conditions, metadata, modifiedAccessConditions: options.conditions }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Gets the permissions for the specified container. The permissions indicate * whether container data may be accessed publicly. * * WARNING: JavaScript Date will potentially lose precision when parsing startsOn and expiresOn strings. * For example, new Date("2018-12-31T03:44:23.8827891Z").toISOString() will get "2018-12-31T03:44:23.882Z". * * @see https://docs.microsoft.com/en-us/rest/api/storageservices/get-container-acl * * @param options - Options to Container Get Access Policy operation. */ async getAccessPolicy(options = {}) { if (!options.conditions) { options.conditions = {}; } const { span, updatedOptions } = createSpan("ContainerClient-getAccessPolicy", options); try { const response = await this.containerContext.getAccessPolicy(Object.assign({ abortSignal: options.abortSignal, leaseAccessConditions: options.conditions }, convertTracingToRequestOptionsBase(updatedOptions))); const res = { _response: response._response, blobPublicAccess: response.blobPublicAccess, date: response.date, etag: response.etag, errorCode: response.errorCode, lastModified: response.lastModified, requestId: response.requestId, clientRequestId: response.clientRequestId, signedIdentifiers: [], version: response.version, }; for (const identifier of response) { let accessPolicy = undefined; if (identifier.accessPolicy) { accessPolicy = { permissions: identifier.accessPolicy.permissions, }; if (identifier.accessPolicy.expiresOn) { accessPolicy.expiresOn = new Date(identifier.accessPolicy.expiresOn); } if (identifier.accessPolicy.startsOn) { accessPolicy.startsOn = new Date(identifier.accessPolicy.startsOn); } } res.signedIdentifiers.push({ accessPolicy, id: identifier.id, }); } return res; } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Sets the permissions for the specified container. The permissions indicate * whether blobs in a container may be accessed publicly. * * When you set permissions for a container, the existing permissions are replaced. * If no access or containerAcl provided, the existing container ACL will be * removed. * * When you establish a stored access policy on a container, it may take up to 30 seconds to take effect. * During this interval, a shared access signature that is associated with the stored access policy will * fail with status code 403 (Forbidden), until the access policy becomes active. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/set-container-acl * * @param access - The level of public access to data in the container. * @param containerAcl - Array of elements each having a unique Id and details of the access policy. * @param options - Options to Container Set Access Policy operation. */ async setAccessPolicy(access, containerAcl, options = {}) { options.conditions = options.conditions || {}; const { span, updatedOptions } = createSpan("ContainerClient-setAccessPolicy", options); try { const acl = []; for (const identifier of containerAcl || []) { acl.push({ accessPolicy: { expiresOn: identifier.accessPolicy.expiresOn ? truncatedISO8061Date(identifier.accessPolicy.expiresOn) : "", permissions: identifier.accessPolicy.permissions, startsOn: identifier.accessPolicy.startsOn ? truncatedISO8061Date(identifier.accessPolicy.startsOn) : "", }, id: identifier.id, }); } return await this.containerContext.setAccessPolicy(Object.assign({ abortSignal: options.abortSignal, access, containerAcl: acl, leaseAccessConditions: options.conditions, modifiedAccessConditions: options.conditions }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Get a {@link BlobLeaseClient} that manages leases on the container. * * @param proposeLeaseId - Initial proposed lease Id. * @returns A new BlobLeaseClient object for managing leases on the container. */ getBlobLeaseClient(proposeLeaseId) { return new BlobLeaseClient(this, proposeLeaseId); } /** * Creates a new block blob, or updates the content of an existing block blob. * * Updating an existing block blob overwrites any existing metadata on the blob. * Partial updates are not supported; the content of the existing blob is * overwritten with the new content. To perform a partial update of a block blob's, * use {@link BlockBlobClient.stageBlock} and {@link BlockBlobClient.commitBlockList}. * * This is a non-parallel uploading method, please use {@link BlockBlobClient.uploadFile}, * {@link BlockBlobClient.uploadStream} or {@link BlockBlobClient.uploadBrowserData} for better * performance with concurrency uploading. * * @see https://docs.microsoft.com/rest/api/storageservices/put-blob * * @param blobName - Name of the block blob to create or update. * @param body - Blob, string, ArrayBuffer, ArrayBufferView or a function * which returns a new Readable stream whose offset is from data source beginning. * @param contentLength - Length of body in bytes. Use Buffer.byteLength() to calculate body length for a * string including non non-Base64/Hex-encoded characters. * @param options - Options to configure the Block Blob Upload operation. * @returns Block Blob upload response data and the corresponding BlockBlobClient instance. */ async uploadBlockBlob(blobName, body, contentLength, options = {}) { const { span, updatedOptions } = createSpan("ContainerClient-uploadBlockBlob", options); try { const blockBlobClient = this.getBlockBlobClient(blobName); const response = await blockBlobClient.upload(body, contentLength, updatedOptions); return { blockBlobClient, response, }; } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Marks the specified blob or snapshot for deletion. The blob is later deleted * during garbage collection. Note that in order to delete a blob, you must delete * all of its snapshots. You can delete both at the same time with the Delete * Blob operation. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/delete-blob * * @param blobName - * @param options - Options to Blob Delete operation. * @returns Block blob deletion response data. */ async deleteBlob(blobName, options = {}) { const { span, updatedOptions } = createSpan("ContainerClient-deleteBlob", options); try { let blobClient = this.getBlobClient(blobName); if (options.versionId) { blobClient = blobClient.withVersion(options.versionId); } return await blobClient.delete(updatedOptions); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * listBlobFlatSegment returns a single segment of blobs starting from the * specified Marker. Use an empty Marker to start enumeration from the beginning. * After getting a segment, process it, and then call listBlobsFlatSegment again * (passing the the previously-returned Marker) to get the next segment. * @see https://docs.microsoft.com/rest/api/storageservices/list-blobs * * @param marker - A string value that identifies the portion of the list to be returned with the next list operation. * @param options - Options to Container List Blob Flat Segment operation. */ async listBlobFlatSegment(marker, options = {}) { const { span, updatedOptions } = createSpan("ContainerClient-listBlobFlatSegment", options); try { const response = await this.containerContext.listBlobFlatSegment(Object.assign(Object.assign({ marker }, options), convertTracingToRequestOptionsBase(updatedOptions))); const wrappedResponse = Object.assign(Object.assign({}, response), { _response: Object.assign(Object.assign({}, response._response), { parsedBody: ConvertInternalResponseOfListBlobFlat(response._response.parsedBody) }), segment: Object.assign(Object.assign({}, response.segment), { blobItems: response.segment.blobItems.map((blobItemInteral) => { const blobItem = Object.assign(Object.assign({}, blobItemInteral), { name: BlobNameToString(blobItemInteral.name), tags: toTags(blobItemInteral.blobTags), objectReplicationSourceProperties: parseObjectReplicationRecord(blobItemInteral.objectReplicationMetadata) }); return blobItem; }) }) }); return wrappedResponse; } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * listBlobHierarchySegment returns a single segment of blobs starting from * the specified Marker. Use an empty Marker to start enumeration from the * beginning. After getting a segment, process it, and then call listBlobsHierarchicalSegment * again (passing the the previously-returned Marker) to get the next segment. * @see https://docs.microsoft.com/rest/api/storageservices/list-blobs * * @param delimiter - The character or string used to define the virtual hierarchy * @param marker - A string value that identifies the portion of the list to be returned with the next list operation. * @param options - Options to Container List Blob Hierarchy Segment operation. */ async listBlobHierarchySegment(delimiter, marker, options = {}) { var _a; const { span, updatedOptions } = createSpan("ContainerClient-listBlobHierarchySegment", options); try { const response = await this.containerContext.listBlobHierarchySegment(delimiter, Object.assign(Object.assign({ marker }, options), convertTracingToRequestOptionsBase(updatedOptions))); const wrappedResponse = Object.assign(Object.assign({}, response), { _response: Object.assign(Object.assign({}, response._response), { parsedBody: ConvertInternalResponseOfListBlobHierarchy(response._response.parsedBody) }), segment: Object.assign(Object.assign({}, response.segment), { blobItems: response.segment.blobItems.map((blobItemInteral) => { const blobItem = Object.assign(Object.assign({}, blobItemInteral), { name: BlobNameToString(blobItemInteral.name), tags: toTags(blobItemInteral.blobTags), objectReplicationSourceProperties: parseObjectReplicationRecord(blobItemInteral.objectReplicationMetadata) }); return blobItem; }), blobPrefixes: (_a = response.segment.blobPrefixes) === null || _a === void 0 ? void 0 : _a.map((blobPrefixInternal) => { const blobPrefix = { name: BlobNameToString(blobPrefixInternal.name), }; return blobPrefix; }) }) }); return wrappedResponse; } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Returns an AsyncIterableIterator for ContainerListBlobFlatSegmentResponse * * @param marker - A string value that identifies the portion of * the list of blobs to be returned with the next listing operation. The * operation returns the ContinuationToken value within the response body if the * listing operation did not return all blobs remaining to be listed * with the current page. The ContinuationToken value can be used as the value for * the marker parameter in a subsequent call to request the next page of list * items. The marker value is opaque to the client. * @param options - Options to list blobs operation. */ listSegments(marker, options = {}) { return tslib.__asyncGenerator(this, arguments, function* listSegments_1() { let listBlobsFlatSegmentResponse; if (!!marker || marker === undefined) { do { listBlobsFlatSegmentResponse = yield tslib.__await(this.listBlobFlatSegment(marker, options)); marker = listBlobsFlatSegmentResponse.continuationToken; yield yield tslib.__await(yield tslib.__await(listBlobsFlatSegmentResponse)); } while (marker); } }); } /** * Returns an AsyncIterableIterator of {@link BlobItem} objects * * @param options - Options to list blobs operation. */ listItems(options = {}) { return tslib.__asyncGenerator(this, arguments, function* listItems_1() { var e_1, _a; let marker; try { for (var _b = tslib.__asyncValues(this.listSegments(marker, options)), _c; _c = yield tslib.__await(_b.next()), !_c.done;) { const listBlobsFlatSegmentResponse = _c.value; yield tslib.__await(yield* tslib.__asyncDelegator(tslib.__asyncValues(listBlobsFlatSegmentResponse.segment.blobItems))); } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) yield tslib.__await(_a.call(_b)); } finally { if (e_1) throw e_1.error; } } }); } /** * Returns an async iterable iterator to list all the blobs * under the specified account. * * .byPage() returns an async iterable iterator to list the blobs in pages. * * Example using `for await` syntax: * * ```js * // Get the containerClient before you run these snippets, * // Can be obtained from `blobServiceClient.getContainerClient("");` * let i = 1; * for await (const blob of containerClient.listBlobsFlat()) { * console.log(`Blob ${i++}: ${blob.name}`); * } * ``` * * Example using `iter.next()`: * * ```js * let i = 1; * let iter = containerClient.listBlobsFlat(); * let blobItem = await iter.next(); * while (!blobItem.done) { * console.log(`Blob ${i++}: ${blobItem.value.name}`); * blobItem = await iter.next(); * } * ``` * * Example using `byPage()`: * * ```js * // passing optional maxPageSize in the page settings * let i = 1; * for await (const response of containerClient.listBlobsFlat().byPage({ maxPageSize: 20 })) { * for (const blob of response.segment.blobItems) { * console.log(`Blob ${i++}: ${blob.name}`); * } * } * ``` * * Example using paging with a marker: * * ```js * let i = 1; * let iterator = containerClient.listBlobsFlat().byPage({ maxPageSize: 2 }); * let response = (await iterator.next()).value; * * // Prints 2 blob names * for (const blob of response.segment.blobItems) { * console.log(`Blob ${i++}: ${blob.name}`); * } * * // Gets next marker * let marker = response.continuationToken; * * // Passing next marker as continuationToken * * iterator = containerClient.listBlobsFlat().byPage({ continuationToken: marker, maxPageSize: 10 }); * response = (await iterator.next()).value; * * // Prints 10 blob names * for (const blob of response.segment.blobItems) { * console.log(`Blob ${i++}: ${blob.name}`); * } * ``` * * @param options - Options to list blobs. * @returns An asyncIterableIterator that supports paging. */ listBlobsFlat(options = {}) { const include = []; if (options.includeCopy) { include.push("copy"); } if (options.includeDeleted) { include.push("deleted"); } if (options.includeMetadata) { include.push("metadata"); } if (options.includeSnapshots) { include.push("snapshots"); } if (options.includeVersions) { include.push("versions"); } if (options.includeUncommitedBlobs) { include.push("uncommittedblobs"); } if (options.includeTags) { include.push("tags"); } if (options.includeDeletedWithVersions) { include.push("deletedwithversions"); } if (options.includeImmutabilityPolicy) { include.push("immutabilitypolicy"); } if (options.includeLegalHold) { include.push("legalhold"); } if (options.prefix === "") { options.prefix = undefined; } const updatedOptions = Object.assign(Object.assign({}, options), (include.length > 0 ? { include: include } : {})); // AsyncIterableIterator to iterate over blobs const iter = this.listItems(updatedOptions); return { /** * The next method, part of the iteration protocol */ next() { return iter.next(); }, /** * The connection to the async iterator, part of the iteration protocol */ [Symbol.asyncIterator]() { return this; }, /** * Return an AsyncIterableIterator that works a page at a time */ byPage: (settings = {}) => { return this.listSegments(settings.continuationToken, Object.assign({ maxPageSize: settings.maxPageSize }, updatedOptions)); }, }; } /** * Returns an AsyncIterableIterator for ContainerListBlobHierarchySegmentResponse * * @param delimiter - The character or string used to define the virtual hierarchy * @param marker - A string value that identifies the portion of * the list of blobs to be returned with the next listing operation. The * operation returns the ContinuationToken value within the response body if the * listing operation did not return all blobs remaining to be listed * with the current page. The ContinuationToken value can be used as the value for * the marker parameter in a subsequent call to request the next page of list * items. The marker value is opaque to the client. * @param options - Options to list blobs operation. */ listHierarchySegments(delimiter, marker, options = {}) { return tslib.__asyncGenerator(this, arguments, function* listHierarchySegments_1() { let listBlobsHierarchySegmentResponse; if (!!marker || marker === undefined) { do { listBlobsHierarchySegmentResponse = yield tslib.__await(this.listBlobHierarchySegment(delimiter, marker, options)); marker = listBlobsHierarchySegmentResponse.continuationToken; yield yield tslib.__await(yield tslib.__await(listBlobsHierarchySegmentResponse)); } while (marker); } }); } /** * Returns an AsyncIterableIterator for {@link BlobPrefix} and {@link BlobItem} objects. * * @param delimiter - The character or string used to define the virtual hierarchy * @param options - Options to list blobs operation. */ listItemsByHierarchy(delimiter, options = {}) { return tslib.__asyncGenerator(this, arguments, function* listItemsByHierarchy_1() { var e_2, _a; let marker; try { for (var _b = tslib.__asyncValues(this.listHierarchySegments(delimiter, marker, options)), _c; _c = yield tslib.__await(_b.next()), !_c.done;) { const listBlobsHierarchySegmentResponse = _c.value; const segment = listBlobsHierarchySegmentResponse.segment; if (segment.blobPrefixes) { for (const prefix of segment.blobPrefixes) { yield yield tslib.__await(Object.assign({ kind: "prefix" }, prefix)); } } for (const blob of segment.blobItems) { yield yield tslib.__await(Object.assign({ kind: "blob" }, blob)); } } } catch (e_2_1) { e_2 = { error: e_2_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) yield tslib.__await(_a.call(_b)); } finally { if (e_2) throw e_2.error; } } }); } /** * Returns an async iterable iterator to list all the blobs by hierarchy. * under the specified account. * * .byPage() returns an async iterable iterator to list the blobs by hierarchy in pages. * * Example using `for await` syntax: * * ```js * for await (const item of containerClient.listBlobsByHierarchy("/")) { * if (item.kind === "prefix") { * console.log(`\tBlobPrefix: ${item.name}`); * } else { * console.log(`\tBlobItem: name - ${item.name}`); * } * } * ``` * * Example using `iter.next()`: * * ```js * let iter = containerClient.listBlobsByHierarchy("/", { prefix: "prefix1/" }); * let entity = await iter.next(); * while (!entity.done) { * let item = entity.value; * if (item.kind === "prefix") { * console.log(`\tBlobPrefix: ${item.name}`); * } else { * console.log(`\tBlobItem: name - ${item.name}`); * } * entity = await iter.next(); * } * ``` * * Example using `byPage()`: * * ```js * console.log("Listing blobs by hierarchy by page"); * for await (const response of containerClient.listBlobsByHierarchy("/").byPage()) { * const segment = response.segment; * if (segment.blobPrefixes) { * for (const prefix of segment.blobPrefixes) { * console.log(`\tBlobPrefix: ${prefix.name}`); * } * } * for (const blob of response.segment.blobItems) { * console.log(`\tBlobItem: name - ${blob.name}`); * } * } * ``` * * Example using paging with a max page size: * * ```js * console.log("Listing blobs by hierarchy by page, specifying a prefix and a max page size"); * * let i = 1; * for await (const response of containerClient * .listBlobsByHierarchy("/", { prefix: "prefix2/sub1/" }) * .byPage({ maxPageSize: 2 })) { * console.log(`Page ${i++}`); * const segment = response.segment; * * if (segment.blobPrefixes) { * for (const prefix of segment.blobPrefixes) { * console.log(`\tBlobPrefix: ${prefix.name}`); * } * } * * for (const blob of response.segment.blobItems) { * console.log(`\tBlobItem: name - ${blob.name}`); * } * } * ``` * * @param delimiter - The character or string used to define the virtual hierarchy * @param options - Options to list blobs operation. */ listBlobsByHierarchy(delimiter, options = {}) { if (delimiter === "") { throw new RangeError("delimiter should contain one or more characters"); } const include = []; if (options.includeCopy) { include.push("copy"); } if (options.includeDeleted) { include.push("deleted"); } if (options.includeMetadata) { include.push("metadata"); } if (options.includeSnapshots) { include.push("snapshots"); } if (options.includeVersions) { include.push("versions"); } if (options.includeUncommitedBlobs) { include.push("uncommittedblobs"); } if (options.includeTags) { include.push("tags"); } if (options.includeDeletedWithVersions) { include.push("deletedwithversions"); } if (options.includeImmutabilityPolicy) { include.push("immutabilitypolicy"); } if (options.includeLegalHold) { include.push("legalhold"); } if (options.prefix === "") { options.prefix = undefined; } const updatedOptions = Object.assign(Object.assign({}, options), (include.length > 0 ? { include: include } : {})); // AsyncIterableIterator to iterate over blob prefixes and blobs const iter = this.listItemsByHierarchy(delimiter, updatedOptions); return { /** * The next method, part of the iteration protocol */ async next() { return iter.next(); }, /** * The connection to the async iterator, part of the iteration protocol */ [Symbol.asyncIterator]() { return this; }, /** * Return an AsyncIterableIterator that works a page at a time */ byPage: (settings = {}) => { return this.listHierarchySegments(delimiter, settings.continuationToken, Object.assign({ maxPageSize: settings.maxPageSize }, updatedOptions)); }, }; } /** * The Filter Blobs operation enables callers to list blobs in the container whose tags * match a given search expression. * * @param tagFilterSqlExpression - The where parameter enables the caller to query blobs whose tags match a given expression. * The given expression must evaluate to true for a blob to be returned in the results. * The[OData - ABNF] filter syntax rule defines the formal grammar for the value of the where query parameter; * however, only a subset of the OData filter syntax is supported in the Blob service. * @param marker - A string value that identifies the portion of * the list of blobs to be returned with the next listing operation. The * operation returns the continuationToken value within the response body if the * listing operation did not return all blobs remaining to be listed * with the current page. The continuationToken value can be used as the value for * the marker parameter in a subsequent call to request the next page of list * items. The marker value is opaque to the client. * @param options - Options to find blobs by tags. */ async findBlobsByTagsSegment(tagFilterSqlExpression, marker, options = {}) { const { span, updatedOptions } = createSpan("ContainerClient-findBlobsByTagsSegment", options); try { const response = await this.containerContext.filterBlobs(Object.assign({ abortSignal: options.abortSignal, where: tagFilterSqlExpression, marker, maxPageSize: options.maxPageSize }, convertTracingToRequestOptionsBase(updatedOptions))); const wrappedResponse = Object.assign(Object.assign({}, response), { _response: response._response, blobs: response.blobs.map((blob) => { var _a; let tagValue = ""; if (((_a = blob.tags) === null || _a === void 0 ? void 0 : _a.blobTagSet.length) === 1) { tagValue = blob.tags.blobTagSet[0].value; } return Object.assign(Object.assign({}, blob), { tags: toTags(blob.tags), tagValue }); }) }); return wrappedResponse; } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Returns an AsyncIterableIterator for ContainerFindBlobsByTagsSegmentResponse. * * @param tagFilterSqlExpression - The where parameter enables the caller to query blobs whose tags match a given expression. * The given expression must evaluate to true for a blob to be returned in the results. * The[OData - ABNF] filter syntax rule defines the formal grammar for the value of the where query parameter; * however, only a subset of the OData filter syntax is supported in the Blob service. * @param marker - A string value that identifies the portion of * the list of blobs to be returned with the next listing operation. The * operation returns the continuationToken value within the response body if the * listing operation did not return all blobs remaining to be listed * with the current page. The continuationToken value can be used as the value for * the marker parameter in a subsequent call to request the next page of list * items. The marker value is opaque to the client. * @param options - Options to find blobs by tags. */ findBlobsByTagsSegments(tagFilterSqlExpression, marker, options = {}) { return tslib.__asyncGenerator(this, arguments, function* findBlobsByTagsSegments_1() { let response; if (!!marker || marker === undefined) { do { response = yield tslib.__await(this.findBlobsByTagsSegment(tagFilterSqlExpression, marker, options)); response.blobs = response.blobs || []; marker = response.continuationToken; yield yield tslib.__await(response); } while (marker); } }); } /** * Returns an AsyncIterableIterator for blobs. * * @param tagFilterSqlExpression - The where parameter enables the caller to query blobs whose tags match a given expression. * The given expression must evaluate to true for a blob to be returned in the results. * The[OData - ABNF] filter syntax rule defines the formal grammar for the value of the where query parameter; * however, only a subset of the OData filter syntax is supported in the Blob service. * @param options - Options to findBlobsByTagsItems. */ findBlobsByTagsItems(tagFilterSqlExpression, options = {}) { return tslib.__asyncGenerator(this, arguments, function* findBlobsByTagsItems_1() { var e_3, _a; let marker; try { for (var _b = tslib.__asyncValues(this.findBlobsByTagsSegments(tagFilterSqlExpression, marker, options)), _c; _c = yield tslib.__await(_b.next()), !_c.done;) { const segment = _c.value; yield tslib.__await(yield* tslib.__asyncDelegator(tslib.__asyncValues(segment.blobs))); } } catch (e_3_1) { e_3 = { error: e_3_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) yield tslib.__await(_a.call(_b)); } finally { if (e_3) throw e_3.error; } } }); } /** * Returns an async iterable iterator to find all blobs with specified tag * under the specified container. * * .byPage() returns an async iterable iterator to list the blobs in pages. * * Example using `for await` syntax: * * ```js * let i = 1; * for await (const blob of containerClient.findBlobsByTags("tagkey='tagvalue'")) { * console.log(`Blob ${i++}: ${blob.name}`); * } * ``` * * Example using `iter.next()`: * * ```js * let i = 1; * const iter = containerClient.findBlobsByTags("tagkey='tagvalue'"); * let blobItem = await iter.next(); * while (!blobItem.done) { * console.log(`Blob ${i++}: ${blobItem.value.name}`); * blobItem = await iter.next(); * } * ``` * * Example using `byPage()`: * * ```js * // passing optional maxPageSize in the page settings * let i = 1; * for await (const response of containerClient.findBlobsByTags("tagkey='tagvalue'").byPage({ maxPageSize: 20 })) { * if (response.blobs) { * for (const blob of response.blobs) { * console.log(`Blob ${i++}: ${blob.name}`); * } * } * } * ``` * * Example using paging with a marker: * * ```js * let i = 1; * let iterator = containerClient.findBlobsByTags("tagkey='tagvalue'").byPage({ maxPageSize: 2 }); * let response = (await iterator.next()).value; * * // Prints 2 blob names * if (response.blobs) { * for (const blob of response.blobs) { * console.log(`Blob ${i++}: ${blob.name}`); * } * } * * // Gets next marker * let marker = response.continuationToken; * // Passing next marker as continuationToken * iterator = containerClient * .findBlobsByTags("tagkey='tagvalue'") * .byPage({ continuationToken: marker, maxPageSize: 10 }); * response = (await iterator.next()).value; * * // Prints blob names * if (response.blobs) { * for (const blob of response.blobs) { * console.log(`Blob ${i++}: ${blob.name}`); * } * } * ``` * * @param tagFilterSqlExpression - The where parameter enables the caller to query blobs whose tags match a given expression. * The given expression must evaluate to true for a blob to be returned in the results. * The[OData - ABNF] filter syntax rule defines the formal grammar for the value of the where query parameter; * however, only a subset of the OData filter syntax is supported in the Blob service. * @param options - Options to find blobs by tags. */ findBlobsByTags(tagFilterSqlExpression, options = {}) { // AsyncIterableIterator to iterate over blobs const listSegmentOptions = Object.assign({}, options); const iter = this.findBlobsByTagsItems(tagFilterSqlExpression, listSegmentOptions); return { /** * The next method, part of the iteration protocol */ next() { return iter.next(); }, /** * The connection to the async iterator, part of the iteration protocol */ [Symbol.asyncIterator]() { return this; }, /** * Return an AsyncIterableIterator that works a page at a time */ byPage: (settings = {}) => { return this.findBlobsByTagsSegments(tagFilterSqlExpression, settings.continuationToken, Object.assign({ maxPageSize: settings.maxPageSize }, listSegmentOptions)); }, }; } getContainerNameFromUrl() { let containerName; try { // URL may look like the following // "https://myaccount.blob.core.windows.net/mycontainer?sasString"; // "https://myaccount.blob.core.windows.net/mycontainer"; // IPv4/IPv6 address hosts, Endpoints - `http://127.0.0.1:10000/devstoreaccount1/containername` // http://localhost:10001/devstoreaccount1/containername const parsedUrl = coreHttp.URLBuilder.parse(this.url); if (parsedUrl.getHost().split(".")[1] === "blob") { // "https://myaccount.blob.core.windows.net/containername". // "https://customdomain.com/containername". // .getPath() -> /containername containerName = parsedUrl.getPath().split("/")[1]; } else if (isIpEndpointStyle(parsedUrl)) { // IPv4/IPv6 address hosts... Example - http://192.0.0.10:10001/devstoreaccount1/containername // Single word domain without a [dot] in the endpoint... Example - http://localhost:10001/devstoreaccount1/containername // .getPath() -> /devstoreaccount1/containername containerName = parsedUrl.getPath().split("/")[2]; } else { // "https://customdomain.com/containername". // .getPath() -> /containername containerName = parsedUrl.getPath().split("/")[1]; } // decode the encoded containerName - to get all the special characters that might be present in it containerName = decodeURIComponent(containerName); if (!containerName) { throw new Error("Provided containerName is invalid."); } return containerName; } catch (error) { throw new Error("Unable to extract containerName with provided information."); } } /** * Only available for ContainerClient constructed with a shared key credential. * * Generates a Blob Container Service Shared Access Signature (SAS) URI based on the client properties * and parameters passed in. The SAS is signed by the shared key credential of the client. * * @see https://docs.microsoft.com/en-us/rest/api/storageservices/constructing-a-service-sas * * @param options - Optional parameters. * @returns The SAS URI consisting of the URI to the resource represented by this client, followed by the generated SAS token. */ generateSasUrl(options) { return new Promise((resolve) => { if (!(this.credential instanceof StorageSharedKeyCredential)) { throw new RangeError("Can only generate the SAS when the client is initialized with a shared key credential"); } const sas = generateBlobSASQueryParameters(Object.assign({ containerName: this._containerName }, options), this.credential).toString(); resolve(appendToURLQuery(this.url, sas)); }); } /** * Creates a BlobBatchClient object to conduct batch operations. * * @see https://docs.microsoft.com/en-us/rest/api/storageservices/blob-batch * * @returns A new BlobBatchClient object for this container. */ getBlobBatchClient() { return new BlobBatchClient(this.url, this.pipeline); } } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /** * ONLY AVAILABLE IN NODE.JS RUNTIME. * * This is a helper class to construct a string representing the permissions granted by an AccountSAS. Setting a value * to true means that any SAS which uses these permissions will grant permissions for that operation. Once all the * values are set, this should be serialized with toString and set as the permissions field on an * {@link AccountSASSignatureValues} object. It is possible to construct the permissions string without this class, but * the order of the permissions is particular and this class guarantees correctness. */ class AccountSASPermissions { constructor() { /** * Permission to read resources and list queues and tables granted. */ this.read = false; /** * Permission to write resources granted. */ this.write = false; /** * Permission to create blobs and files granted. */ this.delete = false; /** * Permission to delete versions granted. */ this.deleteVersion = false; /** * Permission to list blob containers, blobs, shares, directories, and files granted. */ this.list = false; /** * Permission to add messages, table entities, and append to blobs granted. */ this.add = false; /** * Permission to create blobs and files granted. */ this.create = false; /** * Permissions to update messages and table entities granted. */ this.update = false; /** * Permission to get and delete messages granted. */ this.process = false; /** * Specfies Tag access granted. */ this.tag = false; /** * Permission to filter blobs. */ this.filter = false; /** * Permission to set immutability policy. */ this.setImmutabilityPolicy = false; /** * Specifies that Permanent Delete is permitted. */ this.permanentDelete = false; } /** * Parse initializes the AccountSASPermissions fields from a string. * * @param permissions - */ static parse(permissions) { const accountSASPermissions = new AccountSASPermissions(); for (const c of permissions) { switch (c) { case "r": accountSASPermissions.read = true; break; case "w": accountSASPermissions.write = true; break; case "d": accountSASPermissions.delete = true; break; case "x": accountSASPermissions.deleteVersion = true; break; case "l": accountSASPermissions.list = true; break; case "a": accountSASPermissions.add = true; break; case "c": accountSASPermissions.create = true; break; case "u": accountSASPermissions.update = true; break; case "p": accountSASPermissions.process = true; break; case "t": accountSASPermissions.tag = true; break; case "f": accountSASPermissions.filter = true; break; case "i": accountSASPermissions.setImmutabilityPolicy = true; break; case "y": accountSASPermissions.permanentDelete = true; break; default: throw new RangeError(`Invalid permission character: ${c}`); } } return accountSASPermissions; } /** * Creates a {@link AccountSASPermissions} from a raw object which contains same keys as it * and boolean values for them. * * @param permissionLike - */ static from(permissionLike) { const accountSASPermissions = new AccountSASPermissions(); if (permissionLike.read) { accountSASPermissions.read = true; } if (permissionLike.write) { accountSASPermissions.write = true; } if (permissionLike.delete) { accountSASPermissions.delete = true; } if (permissionLike.deleteVersion) { accountSASPermissions.deleteVersion = true; } if (permissionLike.filter) { accountSASPermissions.filter = true; } if (permissionLike.tag) { accountSASPermissions.tag = true; } if (permissionLike.list) { accountSASPermissions.list = true; } if (permissionLike.add) { accountSASPermissions.add = true; } if (permissionLike.create) { accountSASPermissions.create = true; } if (permissionLike.update) { accountSASPermissions.update = true; } if (permissionLike.process) { accountSASPermissions.process = true; } if (permissionLike.setImmutabilityPolicy) { accountSASPermissions.setImmutabilityPolicy = true; } if (permissionLike.permanentDelete) { accountSASPermissions.permanentDelete = true; } return accountSASPermissions; } /** * Produces the SAS permissions string for an Azure Storage account. * Call this method to set AccountSASSignatureValues Permissions field. * * Using this method will guarantee the resource types are in * an order accepted by the service. * * @see https://docs.microsoft.com/en-us/rest/api/storageservices/constructing-an-account-sas * */ toString() { // The order of the characters should be as specified here to ensure correctness: // https://docs.microsoft.com/en-us/rest/api/storageservices/constructing-an-account-sas // Use a string array instead of string concatenating += operator for performance const permissions = []; if (this.read) { permissions.push("r"); } if (this.write) { permissions.push("w"); } if (this.delete) { permissions.push("d"); } if (this.deleteVersion) { permissions.push("x"); } if (this.filter) { permissions.push("f"); } if (this.tag) { permissions.push("t"); } if (this.list) { permissions.push("l"); } if (this.add) { permissions.push("a"); } if (this.create) { permissions.push("c"); } if (this.update) { permissions.push("u"); } if (this.process) { permissions.push("p"); } if (this.setImmutabilityPolicy) { permissions.push("i"); } if (this.permanentDelete) { permissions.push("y"); } return permissions.join(""); } } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /** * ONLY AVAILABLE IN NODE.JS RUNTIME. * * This is a helper class to construct a string representing the resources accessible by an AccountSAS. Setting a value * to true means that any SAS which uses these permissions will grant access to that resource type. Once all the * values are set, this should be serialized with toString and set as the resources field on an * {@link AccountSASSignatureValues} object. It is possible to construct the resources string without this class, but * the order of the resources is particular and this class guarantees correctness. */ class AccountSASResourceTypes { constructor() { /** * Permission to access service level APIs granted. */ this.service = false; /** * Permission to access container level APIs (Blob Containers, Tables, Queues, File Shares) granted. */ this.container = false; /** * Permission to access object level APIs (Blobs, Table Entities, Queue Messages, Files) granted. */ this.object = false; } /** * Creates an {@link AccountSASResourceTypes} from the specified resource types string. This method will throw an * Error if it encounters a character that does not correspond to a valid resource type. * * @param resourceTypes - */ static parse(resourceTypes) { const accountSASResourceTypes = new AccountSASResourceTypes(); for (const c of resourceTypes) { switch (c) { case "s": accountSASResourceTypes.service = true; break; case "c": accountSASResourceTypes.container = true; break; case "o": accountSASResourceTypes.object = true; break; default: throw new RangeError(`Invalid resource type: ${c}`); } } return accountSASResourceTypes; } /** * Converts the given resource types to a string. * * @see https://docs.microsoft.com/en-us/rest/api/storageservices/constructing-an-account-sas * */ toString() { const resourceTypes = []; if (this.service) { resourceTypes.push("s"); } if (this.container) { resourceTypes.push("c"); } if (this.object) { resourceTypes.push("o"); } return resourceTypes.join(""); } } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /** * ONLY AVAILABLE IN NODE.JS RUNTIME. * * This is a helper class to construct a string representing the services accessible by an AccountSAS. Setting a value * to true means that any SAS which uses these permissions will grant access to that service. Once all the * values are set, this should be serialized with toString and set as the services field on an * {@link AccountSASSignatureValues} object. It is possible to construct the services string without this class, but * the order of the services is particular and this class guarantees correctness. */ class AccountSASServices { constructor() { /** * Permission to access blob resources granted. */ this.blob = false; /** * Permission to access file resources granted. */ this.file = false; /** * Permission to access queue resources granted. */ this.queue = false; /** * Permission to access table resources granted. */ this.table = false; } /** * Creates an {@link AccountSASServices} from the specified services string. This method will throw an * Error if it encounters a character that does not correspond to a valid service. * * @param services - */ static parse(services) { const accountSASServices = new AccountSASServices(); for (const c of services) { switch (c) { case "b": accountSASServices.blob = true; break; case "f": accountSASServices.file = true; break; case "q": accountSASServices.queue = true; break; case "t": accountSASServices.table = true; break; default: throw new RangeError(`Invalid service character: ${c}`); } } return accountSASServices; } /** * Converts the given services to a string. * */ toString() { const services = []; if (this.blob) { services.push("b"); } if (this.table) { services.push("t"); } if (this.queue) { services.push("q"); } if (this.file) { services.push("f"); } return services.join(""); } } // Copyright (c) Microsoft Corporation. /** * ONLY AVAILABLE IN NODE.JS RUNTIME. * * Generates a {@link SASQueryParameters} object which contains all SAS query parameters needed to make an actual * REST request. * * @see https://docs.microsoft.com/en-us/rest/api/storageservices/constructing-an-account-sas * * @param accountSASSignatureValues - * @param sharedKeyCredential - */ function generateAccountSASQueryParameters(accountSASSignatureValues, sharedKeyCredential) { const version = accountSASSignatureValues.version ? accountSASSignatureValues.version : SERVICE_VERSION; if (accountSASSignatureValues.permissions && accountSASSignatureValues.permissions.setImmutabilityPolicy && version < "2020-08-04") { throw RangeError("'version' must be >= '2020-08-04' when provided 'i' permission."); } if (accountSASSignatureValues.permissions && accountSASSignatureValues.permissions.deleteVersion && version < "2019-10-10") { throw RangeError("'version' must be >= '2019-10-10' when provided 'x' permission."); } if (accountSASSignatureValues.permissions && accountSASSignatureValues.permissions.permanentDelete && version < "2019-10-10") { throw RangeError("'version' must be >= '2019-10-10' when provided 'y' permission."); } if (accountSASSignatureValues.permissions && accountSASSignatureValues.permissions.tag && version < "2019-12-12") { throw RangeError("'version' must be >= '2019-12-12' when provided 't' permission."); } if (accountSASSignatureValues.permissions && accountSASSignatureValues.permissions.filter && version < "2019-12-12") { throw RangeError("'version' must be >= '2019-12-12' when provided 'f' permission."); } if (accountSASSignatureValues.encryptionScope && version < "2020-12-06") { throw RangeError("'version' must be >= '2020-12-06' when provided 'encryptionScope' in SAS."); } const parsedPermissions = AccountSASPermissions.parse(accountSASSignatureValues.permissions.toString()); const parsedServices = AccountSASServices.parse(accountSASSignatureValues.services).toString(); const parsedResourceTypes = AccountSASResourceTypes.parse(accountSASSignatureValues.resourceTypes).toString(); let stringToSign; if (version >= "2020-12-06") { stringToSign = [ sharedKeyCredential.accountName, parsedPermissions, parsedServices, parsedResourceTypes, accountSASSignatureValues.startsOn ? truncatedISO8061Date(accountSASSignatureValues.startsOn, false) : "", truncatedISO8061Date(accountSASSignatureValues.expiresOn, false), accountSASSignatureValues.ipRange ? ipRangeToString(accountSASSignatureValues.ipRange) : "", accountSASSignatureValues.protocol ? accountSASSignatureValues.protocol : "", version, accountSASSignatureValues.encryptionScope ? accountSASSignatureValues.encryptionScope : "", "", // Account SAS requires an additional newline character ].join("\n"); } else { stringToSign = [ sharedKeyCredential.accountName, parsedPermissions, parsedServices, parsedResourceTypes, accountSASSignatureValues.startsOn ? truncatedISO8061Date(accountSASSignatureValues.startsOn, false) : "", truncatedISO8061Date(accountSASSignatureValues.expiresOn, false), accountSASSignatureValues.ipRange ? ipRangeToString(accountSASSignatureValues.ipRange) : "", accountSASSignatureValues.protocol ? accountSASSignatureValues.protocol : "", version, "", // Account SAS requires an additional newline character ].join("\n"); } const signature = sharedKeyCredential.computeHMACSHA256(stringToSign); return new SASQueryParameters(version, signature, parsedPermissions.toString(), parsedServices, parsedResourceTypes, accountSASSignatureValues.protocol, accountSASSignatureValues.startsOn, accountSASSignatureValues.expiresOn, accountSASSignatureValues.ipRange, undefined, undefined, undefined, undefined, undefined, undefined, undefined, undefined, undefined, undefined, accountSASSignatureValues.encryptionScope); } /** * A BlobServiceClient represents a Client to the Azure Storage Blob service allowing you * to manipulate blob containers. */ class BlobServiceClient extends StorageClient { constructor(url, credentialOrPipeline, // Legacy, no fix for eslint error without breaking. Disable it for this interface. /* eslint-disable-next-line @azure/azure-sdk/ts-naming-options*/ options) { let pipeline; if (isPipelineLike(credentialOrPipeline)) { pipeline = credentialOrPipeline; } else if ((coreHttp.isNode && credentialOrPipeline instanceof StorageSharedKeyCredential) || credentialOrPipeline instanceof AnonymousCredential || coreHttp.isTokenCredential(credentialOrPipeline)) { pipeline = newPipeline(credentialOrPipeline, options); } else { // The second parameter is undefined. Use anonymous credential pipeline = newPipeline(new AnonymousCredential(), options); } super(url, pipeline); this.serviceContext = new Service(this.storageClientContext); } /** * * Creates an instance of BlobServiceClient from connection string. * * @param connectionString - Account connection string or a SAS connection string of an Azure storage account. * [ Note - Account connection string can only be used in NODE.JS runtime. ] * Account connection string example - * `DefaultEndpointsProtocol=https;AccountName=myaccount;AccountKey=accountKey;EndpointSuffix=core.windows.net` * SAS connection string example - * `BlobEndpoint=https://myaccount.blob.core.windows.net/;QueueEndpoint=https://myaccount.queue.core.windows.net/;FileEndpoint=https://myaccount.file.core.windows.net/;TableEndpoint=https://myaccount.table.core.windows.net/;SharedAccessSignature=sasString` * @param options - Optional. Options to configure the HTTP pipeline. */ static fromConnectionString(connectionString, // Legacy, no fix for eslint error without breaking. Disable it for this interface. /* eslint-disable-next-line @azure/azure-sdk/ts-naming-options*/ options) { options = options || {}; const extractedCreds = extractConnectionStringParts(connectionString); if (extractedCreds.kind === "AccountConnString") { if (coreHttp.isNode) { const sharedKeyCredential = new StorageSharedKeyCredential(extractedCreds.accountName, extractedCreds.accountKey); if (!options.proxyOptions) { options.proxyOptions = coreHttp.getDefaultProxySettings(extractedCreds.proxyUri); } const pipeline = newPipeline(sharedKeyCredential, options); return new BlobServiceClient(extractedCreds.url, pipeline); } else { throw new Error("Account connection string is only supported in Node.js environment"); } } else if (extractedCreds.kind === "SASConnString") { const pipeline = newPipeline(new AnonymousCredential(), options); return new BlobServiceClient(extractedCreds.url + "?" + extractedCreds.accountSas, pipeline); } else { throw new Error("Connection string must be either an Account connection string or a SAS connection string"); } } /** * Creates a {@link ContainerClient} object * * @param containerName - A container name * @returns A new ContainerClient object for the given container name. * * Example usage: * * ```js * const containerClient = blobServiceClient.getContainerClient(""); * ``` */ getContainerClient(containerName) { return new ContainerClient(appendToURLPath(this.url, encodeURIComponent(containerName)), this.pipeline); } /** * Create a Blob container. @see https://docs.microsoft.com/en-us/rest/api/storageservices/create-container * * @param containerName - Name of the container to create. * @param options - Options to configure Container Create operation. * @returns Container creation response and the corresponding container client. */ async createContainer(containerName, options = {}) { const { span, updatedOptions } = createSpan("BlobServiceClient-createContainer", options); try { const containerClient = this.getContainerClient(containerName); const containerCreateResponse = await containerClient.create(updatedOptions); return { containerClient, containerCreateResponse, }; } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Deletes a Blob container. * * @param containerName - Name of the container to delete. * @param options - Options to configure Container Delete operation. * @returns Container deletion response. */ async deleteContainer(containerName, options = {}) { const { span, updatedOptions } = createSpan("BlobServiceClient-deleteContainer", options); try { const containerClient = this.getContainerClient(containerName); return await containerClient.delete(updatedOptions); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Restore a previously deleted Blob container. * This API is only functional if Container Soft Delete is enabled for the storage account associated with the container. * * @param deletedContainerName - Name of the previously deleted container. * @param deletedContainerVersion - Version of the previously deleted container, used to uniquely identify the deleted container. * @param options - Options to configure Container Restore operation. * @returns Container deletion response. */ async undeleteContainer(deletedContainerName, deletedContainerVersion, options = {}) { const { span, updatedOptions } = createSpan("BlobServiceClient-undeleteContainer", options); try { const containerClient = this.getContainerClient(options.destinationContainerName || deletedContainerName); // Hack to access a protected member. const containerContext = new Container(containerClient["storageClientContext"]); const containerUndeleteResponse = await containerContext.restore(Object.assign({ deletedContainerName, deletedContainerVersion }, updatedOptions)); return { containerClient, containerUndeleteResponse }; } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Rename an existing Blob Container. * * @param sourceContainerName - The name of the source container. * @param destinationContainerName - The new name of the container. * @param options - Options to configure Container Rename operation. */ /* eslint-disable-next-line @typescript-eslint/ban-ts-comment */ // @ts-ignore Need to hide this interface for now. Make it public and turn on the live tests for it when the service is ready. async renameContainer(sourceContainerName, destinationContainerName, options = {}) { var _a; const { span, updatedOptions } = createSpan("BlobServiceClient-renameContainer", options); try { const containerClient = this.getContainerClient(destinationContainerName); // Hack to access a protected member. const containerContext = new Container(containerClient["storageClientContext"]); const containerRenameResponse = await containerContext.rename(sourceContainerName, Object.assign(Object.assign({}, updatedOptions), { sourceLeaseId: (_a = options.sourceCondition) === null || _a === void 0 ? void 0 : _a.leaseId })); return { containerClient, containerRenameResponse }; } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Gets the properties of a storage account’s Blob service, including properties * for Storage Analytics and CORS (Cross-Origin Resource Sharing) rules. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/get-blob-service-properties * * @param options - Options to the Service Get Properties operation. * @returns Response data for the Service Get Properties operation. */ async getProperties(options = {}) { const { span, updatedOptions } = createSpan("BlobServiceClient-getProperties", options); try { return await this.serviceContext.getProperties(Object.assign({ abortSignal: options.abortSignal }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Sets properties for a storage account’s Blob service endpoint, including properties * for Storage Analytics, CORS (Cross-Origin Resource Sharing) rules and soft delete settings. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/set-blob-service-properties * * @param properties - * @param options - Options to the Service Set Properties operation. * @returns Response data for the Service Set Properties operation. */ async setProperties(properties, options = {}) { const { span, updatedOptions } = createSpan("BlobServiceClient-setProperties", options); try { return await this.serviceContext.setProperties(properties, Object.assign({ abortSignal: options.abortSignal }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Retrieves statistics related to replication for the Blob service. It is only * available on the secondary location endpoint when read-access geo-redundant * replication is enabled for the storage account. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/get-blob-service-stats * * @param options - Options to the Service Get Statistics operation. * @returns Response data for the Service Get Statistics operation. */ async getStatistics(options = {}) { const { span, updatedOptions } = createSpan("BlobServiceClient-getStatistics", options); try { return await this.serviceContext.getStatistics(Object.assign({ abortSignal: options.abortSignal }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * The Get Account Information operation returns the sku name and account kind * for the specified account. * The Get Account Information operation is available on service versions beginning * with version 2018-03-28. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/get-account-information * * @param options - Options to the Service Get Account Info operation. * @returns Response data for the Service Get Account Info operation. */ async getAccountInfo(options = {}) { const { span, updatedOptions } = createSpan("BlobServiceClient-getAccountInfo", options); try { return await this.serviceContext.getAccountInfo(Object.assign({ abortSignal: options.abortSignal }, convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Returns a list of the containers under the specified account. * @see https://docs.microsoft.com/en-us/rest/api/storageservices/list-containers2 * * @param marker - A string value that identifies the portion of * the list of containers to be returned with the next listing operation. The * operation returns the continuationToken value within the response body if the * listing operation did not return all containers remaining to be listed * with the current page. The continuationToken value can be used as the value for * the marker parameter in a subsequent call to request the next page of list * items. The marker value is opaque to the client. * @param options - Options to the Service List Container Segment operation. * @returns Response data for the Service List Container Segment operation. */ async listContainersSegment(marker, options = {}) { const { span, updatedOptions } = createSpan("BlobServiceClient-listContainersSegment", options); try { return await this.serviceContext.listContainersSegment(Object.assign(Object.assign(Object.assign({ abortSignal: options.abortSignal, marker }, options), { include: typeof options.include === "string" ? [options.include] : options.include }), convertTracingToRequestOptionsBase(updatedOptions))); } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * The Filter Blobs operation enables callers to list blobs across all containers whose tags * match a given search expression. Filter blobs searches across all containers within a * storage account but can be scoped within the expression to a single container. * * @param tagFilterSqlExpression - The where parameter enables the caller to query blobs whose tags match a given expression. * The given expression must evaluate to true for a blob to be returned in the results. * The[OData - ABNF] filter syntax rule defines the formal grammar for the value of the where query parameter; * however, only a subset of the OData filter syntax is supported in the Blob service. * @param marker - A string value that identifies the portion of * the list of blobs to be returned with the next listing operation. The * operation returns the continuationToken value within the response body if the * listing operation did not return all blobs remaining to be listed * with the current page. The continuationToken value can be used as the value for * the marker parameter in a subsequent call to request the next page of list * items. The marker value is opaque to the client. * @param options - Options to find blobs by tags. */ async findBlobsByTagsSegment(tagFilterSqlExpression, marker, options = {}) { const { span, updatedOptions } = createSpan("BlobServiceClient-findBlobsByTagsSegment", options); try { const response = await this.serviceContext.filterBlobs(Object.assign({ abortSignal: options.abortSignal, where: tagFilterSqlExpression, marker, maxPageSize: options.maxPageSize }, convertTracingToRequestOptionsBase(updatedOptions))); const wrappedResponse = Object.assign(Object.assign({}, response), { _response: response._response, blobs: response.blobs.map((blob) => { var _a; let tagValue = ""; if (((_a = blob.tags) === null || _a === void 0 ? void 0 : _a.blobTagSet.length) === 1) { tagValue = blob.tags.blobTagSet[0].value; } return Object.assign(Object.assign({}, blob), { tags: toTags(blob.tags), tagValue }); }) }); return wrappedResponse; } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Returns an AsyncIterableIterator for ServiceFindBlobsByTagsSegmentResponse. * * @param tagFilterSqlExpression - The where parameter enables the caller to query blobs whose tags match a given expression. * The given expression must evaluate to true for a blob to be returned in the results. * The[OData - ABNF] filter syntax rule defines the formal grammar for the value of the where query parameter; * however, only a subset of the OData filter syntax is supported in the Blob service. * @param marker - A string value that identifies the portion of * the list of blobs to be returned with the next listing operation. The * operation returns the continuationToken value within the response body if the * listing operation did not return all blobs remaining to be listed * with the current page. The continuationToken value can be used as the value for * the marker parameter in a subsequent call to request the next page of list * items. The marker value is opaque to the client. * @param options - Options to find blobs by tags. */ findBlobsByTagsSegments(tagFilterSqlExpression, marker, options = {}) { return tslib.__asyncGenerator(this, arguments, function* findBlobsByTagsSegments_1() { let response; if (!!marker || marker === undefined) { do { response = yield tslib.__await(this.findBlobsByTagsSegment(tagFilterSqlExpression, marker, options)); response.blobs = response.blobs || []; marker = response.continuationToken; yield yield tslib.__await(response); } while (marker); } }); } /** * Returns an AsyncIterableIterator for blobs. * * @param tagFilterSqlExpression - The where parameter enables the caller to query blobs whose tags match a given expression. * The given expression must evaluate to true for a blob to be returned in the results. * The[OData - ABNF] filter syntax rule defines the formal grammar for the value of the where query parameter; * however, only a subset of the OData filter syntax is supported in the Blob service. * @param options - Options to findBlobsByTagsItems. */ findBlobsByTagsItems(tagFilterSqlExpression, options = {}) { return tslib.__asyncGenerator(this, arguments, function* findBlobsByTagsItems_1() { var e_1, _a; let marker; try { for (var _b = tslib.__asyncValues(this.findBlobsByTagsSegments(tagFilterSqlExpression, marker, options)), _c; _c = yield tslib.__await(_b.next()), !_c.done;) { const segment = _c.value; yield tslib.__await(yield* tslib.__asyncDelegator(tslib.__asyncValues(segment.blobs))); } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) yield tslib.__await(_a.call(_b)); } finally { if (e_1) throw e_1.error; } } }); } /** * Returns an async iterable iterator to find all blobs with specified tag * under the specified account. * * .byPage() returns an async iterable iterator to list the blobs in pages. * * @see https://docs.microsoft.com/en-us/rest/api/storageservices/get-blob-service-properties * * Example using `for await` syntax: * * ```js * let i = 1; * for await (const blob of blobServiceClient.findBlobsByTags("tagkey='tagvalue'")) { * console.log(`Blob ${i++}: ${container.name}`); * } * ``` * * Example using `iter.next()`: * * ```js * let i = 1; * const iter = blobServiceClient.findBlobsByTags("tagkey='tagvalue'"); * let blobItem = await iter.next(); * while (!blobItem.done) { * console.log(`Blob ${i++}: ${blobItem.value.name}`); * blobItem = await iter.next(); * } * ``` * * Example using `byPage()`: * * ```js * // passing optional maxPageSize in the page settings * let i = 1; * for await (const response of blobServiceClient.findBlobsByTags("tagkey='tagvalue'").byPage({ maxPageSize: 20 })) { * if (response.blobs) { * for (const blob of response.blobs) { * console.log(`Blob ${i++}: ${blob.name}`); * } * } * } * ``` * * Example using paging with a marker: * * ```js * let i = 1; * let iterator = blobServiceClient.findBlobsByTags("tagkey='tagvalue'").byPage({ maxPageSize: 2 }); * let response = (await iterator.next()).value; * * // Prints 2 blob names * if (response.blobs) { * for (const blob of response.blobs) { * console.log(`Blob ${i++}: ${blob.name}`); * } * } * * // Gets next marker * let marker = response.continuationToken; * // Passing next marker as continuationToken * iterator = blobServiceClient * .findBlobsByTags("tagkey='tagvalue'") * .byPage({ continuationToken: marker, maxPageSize: 10 }); * response = (await iterator.next()).value; * * // Prints blob names * if (response.blobs) { * for (const blob of response.blobs) { * console.log(`Blob ${i++}: ${blob.name}`); * } * } * ``` * * @param tagFilterSqlExpression - The where parameter enables the caller to query blobs whose tags match a given expression. * The given expression must evaluate to true for a blob to be returned in the results. * The[OData - ABNF] filter syntax rule defines the formal grammar for the value of the where query parameter; * however, only a subset of the OData filter syntax is supported in the Blob service. * @param options - Options to find blobs by tags. */ findBlobsByTags(tagFilterSqlExpression, options = {}) { // AsyncIterableIterator to iterate over blobs const listSegmentOptions = Object.assign({}, options); const iter = this.findBlobsByTagsItems(tagFilterSqlExpression, listSegmentOptions); return { /** * The next method, part of the iteration protocol */ next() { return iter.next(); }, /** * The connection to the async iterator, part of the iteration protocol */ [Symbol.asyncIterator]() { return this; }, /** * Return an AsyncIterableIterator that works a page at a time */ byPage: (settings = {}) => { return this.findBlobsByTagsSegments(tagFilterSqlExpression, settings.continuationToken, Object.assign({ maxPageSize: settings.maxPageSize }, listSegmentOptions)); }, }; } /** * Returns an AsyncIterableIterator for ServiceListContainersSegmentResponses * * @param marker - A string value that identifies the portion of * the list of containers to be returned with the next listing operation. The * operation returns the continuationToken value within the response body if the * listing operation did not return all containers remaining to be listed * with the current page. The continuationToken value can be used as the value for * the marker parameter in a subsequent call to request the next page of list * items. The marker value is opaque to the client. * @param options - Options to list containers operation. */ listSegments(marker, options = {}) { return tslib.__asyncGenerator(this, arguments, function* listSegments_1() { let listContainersSegmentResponse; if (!!marker || marker === undefined) { do { listContainersSegmentResponse = yield tslib.__await(this.listContainersSegment(marker, options)); listContainersSegmentResponse.containerItems = listContainersSegmentResponse.containerItems || []; marker = listContainersSegmentResponse.continuationToken; yield yield tslib.__await(yield tslib.__await(listContainersSegmentResponse)); } while (marker); } }); } /** * Returns an AsyncIterableIterator for Container Items * * @param options - Options to list containers operation. */ listItems(options = {}) { return tslib.__asyncGenerator(this, arguments, function* listItems_1() { var e_2, _a; let marker; try { for (var _b = tslib.__asyncValues(this.listSegments(marker, options)), _c; _c = yield tslib.__await(_b.next()), !_c.done;) { const segment = _c.value; yield tslib.__await(yield* tslib.__asyncDelegator(tslib.__asyncValues(segment.containerItems))); } } catch (e_2_1) { e_2 = { error: e_2_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) yield tslib.__await(_a.call(_b)); } finally { if (e_2) throw e_2.error; } } }); } /** * Returns an async iterable iterator to list all the containers * under the specified account. * * .byPage() returns an async iterable iterator to list the containers in pages. * * Example using `for await` syntax: * * ```js * let i = 1; * for await (const container of blobServiceClient.listContainers()) { * console.log(`Container ${i++}: ${container.name}`); * } * ``` * * Example using `iter.next()`: * * ```js * let i = 1; * const iter = blobServiceClient.listContainers(); * let containerItem = await iter.next(); * while (!containerItem.done) { * console.log(`Container ${i++}: ${containerItem.value.name}`); * containerItem = await iter.next(); * } * ``` * * Example using `byPage()`: * * ```js * // passing optional maxPageSize in the page settings * let i = 1; * for await (const response of blobServiceClient.listContainers().byPage({ maxPageSize: 20 })) { * if (response.containerItems) { * for (const container of response.containerItems) { * console.log(`Container ${i++}: ${container.name}`); * } * } * } * ``` * * Example using paging with a marker: * * ```js * let i = 1; * let iterator = blobServiceClient.listContainers().byPage({ maxPageSize: 2 }); * let response = (await iterator.next()).value; * * // Prints 2 container names * if (response.containerItems) { * for (const container of response.containerItems) { * console.log(`Container ${i++}: ${container.name}`); * } * } * * // Gets next marker * let marker = response.continuationToken; * // Passing next marker as continuationToken * iterator = blobServiceClient * .listContainers() * .byPage({ continuationToken: marker, maxPageSize: 10 }); * response = (await iterator.next()).value; * * // Prints 10 container names * if (response.containerItems) { * for (const container of response.containerItems) { * console.log(`Container ${i++}: ${container.name}`); * } * } * ``` * * @param options - Options to list containers. * @returns An asyncIterableIterator that supports paging. */ listContainers(options = {}) { if (options.prefix === "") { options.prefix = undefined; } const include = []; if (options.includeDeleted) { include.push("deleted"); } if (options.includeMetadata) { include.push("metadata"); } if (options.includeSystem) { include.push("system"); } // AsyncIterableIterator to iterate over containers const listSegmentOptions = Object.assign(Object.assign({}, options), (include.length > 0 ? { include } : {})); const iter = this.listItems(listSegmentOptions); return { /** * The next method, part of the iteration protocol */ next() { return iter.next(); }, /** * The connection to the async iterator, part of the iteration protocol */ [Symbol.asyncIterator]() { return this; }, /** * Return an AsyncIterableIterator that works a page at a time */ byPage: (settings = {}) => { return this.listSegments(settings.continuationToken, Object.assign({ maxPageSize: settings.maxPageSize }, listSegmentOptions)); }, }; } /** * ONLY AVAILABLE WHEN USING BEARER TOKEN AUTHENTICATION (TokenCredential). * * Retrieves a user delegation key for the Blob service. This is only a valid operation when using * bearer token authentication. * * @see https://docs.microsoft.com/en-us/rest/api/storageservices/get-user-delegation-key * * @param startsOn - The start time for the user delegation SAS. Must be within 7 days of the current time * @param expiresOn - The end time for the user delegation SAS. Must be within 7 days of the current time */ async getUserDelegationKey(startsOn, expiresOn, options = {}) { const { span, updatedOptions } = createSpan("BlobServiceClient-getUserDelegationKey", options); try { const response = await this.serviceContext.getUserDelegationKey({ startsOn: truncatedISO8061Date(startsOn, false), expiresOn: truncatedISO8061Date(expiresOn, false), }, Object.assign({ abortSignal: options.abortSignal }, convertTracingToRequestOptionsBase(updatedOptions))); const userDelegationKey = { signedObjectId: response.signedObjectId, signedTenantId: response.signedTenantId, signedStartsOn: new Date(response.signedStartsOn), signedExpiresOn: new Date(response.signedExpiresOn), signedService: response.signedService, signedVersion: response.signedVersion, value: response.value, }; const res = Object.assign({ _response: response._response, requestId: response.requestId, clientRequestId: response.clientRequestId, version: response.version, date: response.date, errorCode: response.errorCode }, userDelegationKey); return res; } catch (e) { span.setStatus({ code: coreTracing.SpanStatusCode.ERROR, message: e.message, }); throw e; } finally { span.end(); } } /** * Creates a BlobBatchClient object to conduct batch operations. * * @see https://docs.microsoft.com/en-us/rest/api/storageservices/blob-batch * * @returns A new BlobBatchClient object for this service. */ getBlobBatchClient() { return new BlobBatchClient(this.url, this.pipeline); } /** * Only available for BlobServiceClient constructed with a shared key credential. * * Generates a Blob account Shared Access Signature (SAS) URI based on the client properties * and parameters passed in. The SAS is signed by the shared key credential of the client. * * @see https://docs.microsoft.com/en-us/rest/api/storageservices/create-account-sas * * @param expiresOn - Optional. The time at which the shared access signature becomes invalid. Default to an hour later if not provided. * @param permissions - Specifies the list of permissions to be associated with the SAS. * @param resourceTypes - Specifies the resource types associated with the shared access signature. * @param options - Optional parameters. * @returns An account SAS URI consisting of the URI to the resource represented by this client, followed by the generated SAS token. */ generateAccountSasUrl(expiresOn, permissions = AccountSASPermissions.parse("r"), resourceTypes = "sco", options = {}) { if (!(this.credential instanceof StorageSharedKeyCredential)) { throw RangeError("Can only generate the account SAS when the client is initialized with a shared key credential"); } if (expiresOn === undefined) { const now = new Date(); expiresOn = new Date(now.getTime() + 3600 * 1000); } const sas = generateAccountSASQueryParameters(Object.assign({ permissions, expiresOn, resourceTypes, services: AccountSASServices.parse("b").toString() }, options), this.credential).toString(); return appendToURLQuery(this.url, sas); } } // Copyright (c) Microsoft Corporation. // Licensed under the MIT license. /** Known values of {@link EncryptionAlgorithmType} that the service accepts. */ exports.KnownEncryptionAlgorithmType = void 0; (function (KnownEncryptionAlgorithmType) { KnownEncryptionAlgorithmType["AES256"] = "AES256"; })(exports.KnownEncryptionAlgorithmType || (exports.KnownEncryptionAlgorithmType = {})); Object.defineProperty(exports, "BaseRequestPolicy", ({ enumerable: true, get: function () { return coreHttp.BaseRequestPolicy; } })); Object.defineProperty(exports, "HttpHeaders", ({ enumerable: true, get: function () { return coreHttp.HttpHeaders; } })); Object.defineProperty(exports, "RequestPolicyOptions", ({ enumerable: true, get: function () { return coreHttp.RequestPolicyOptions; } })); Object.defineProperty(exports, "RestError", ({ enumerable: true, get: function () { return coreHttp.RestError; } })); Object.defineProperty(exports, "WebResource", ({ enumerable: true, get: function () { return coreHttp.WebResource; } })); Object.defineProperty(exports, "deserializationPolicy", ({ enumerable: true, get: function () { return coreHttp.deserializationPolicy; } })); exports.AccountSASPermissions = AccountSASPermissions; exports.AccountSASResourceTypes = AccountSASResourceTypes; exports.AccountSASServices = AccountSASServices; exports.AnonymousCredential = AnonymousCredential; exports.AnonymousCredentialPolicy = AnonymousCredentialPolicy; exports.AppendBlobClient = AppendBlobClient; exports.BlobBatch = BlobBatch; exports.BlobBatchClient = BlobBatchClient; exports.BlobClient = BlobClient; exports.BlobLeaseClient = BlobLeaseClient; exports.BlobSASPermissions = BlobSASPermissions; exports.BlobServiceClient = BlobServiceClient; exports.BlockBlobClient = BlockBlobClient; exports.ContainerClient = ContainerClient; exports.ContainerSASPermissions = ContainerSASPermissions; exports.Credential = Credential; exports.CredentialPolicy = CredentialPolicy; exports.PageBlobClient = PageBlobClient; exports.Pipeline = Pipeline; exports.SASQueryParameters = SASQueryParameters; exports.StorageBrowserPolicy = StorageBrowserPolicy; exports.StorageBrowserPolicyFactory = StorageBrowserPolicyFactory; exports.StorageOAuthScopes = StorageOAuthScopes; exports.StorageRetryPolicy = StorageRetryPolicy; exports.StorageRetryPolicyFactory = StorageRetryPolicyFactory; exports.StorageSharedKeyCredential = StorageSharedKeyCredential; exports.StorageSharedKeyCredentialPolicy = StorageSharedKeyCredentialPolicy; exports.generateAccountSASQueryParameters = generateAccountSASQueryParameters; exports.generateBlobSASQueryParameters = generateBlobSASQueryParameters; exports.isPipelineLike = isPipelineLike; exports.logger = logger; exports.newPipeline = newPipeline; //# sourceMappingURL=index.js.map /***/ }), /***/ 70679: /***/ ((module) => { /*! ***************************************************************************** Copyright (c) Microsoft Corporation. Permission to use, copy, modify, and/or distribute this software for any purpose with or without fee is hereby granted. THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ***************************************************************************** */ /* global global, define, System, Reflect, Promise */ var __extends; var __assign; var __rest; var __decorate; var __param; var __metadata; var __awaiter; var __generator; var __exportStar; var __values; var __read; var __spread; var __spreadArrays; var __spreadArray; var __await; var __asyncGenerator; var __asyncDelegator; var __asyncValues; var __makeTemplateObject; var __importStar; var __importDefault; var __classPrivateFieldGet; var __classPrivateFieldSet; var __createBinding; (function (factory) { var root = typeof global === "object" ? global : typeof self === "object" ? self : typeof this === "object" ? this : {}; if (typeof define === "function" && define.amd) { define("tslib", ["exports"], function (exports) { factory(createExporter(root, createExporter(exports))); }); } else if ( true && typeof module.exports === "object") { factory(createExporter(root, createExporter(module.exports))); } else { factory(createExporter(root)); } function createExporter(exports, previous) { if (exports !== root) { if (typeof Object.create === "function") { Object.defineProperty(exports, "__esModule", { value: true }); } else { exports.__esModule = true; } } return function (id, v) { return exports[id] = previous ? previous(id, v) : v; }; } }) (function (exporter) { var extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (Object.prototype.hasOwnProperty.call(b, p)) d[p] = b[p]; }; __extends = function (d, b) { if (typeof b !== "function" && b !== null) throw new TypeError("Class extends value " + String(b) + " is not a constructor or null"); extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; __assign = Object.assign || function (t) { for (var s, i = 1, n = arguments.length; i < n; i++) { s = arguments[i]; for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p)) t[p] = s[p]; } return t; }; __rest = function (s, e) { var t = {}; for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p) && e.indexOf(p) < 0) t[p] = s[p]; if (s != null && typeof Object.getOwnPropertySymbols === "function") for (var i = 0, p = Object.getOwnPropertySymbols(s); i < p.length; i++) { if (e.indexOf(p[i]) < 0 && Object.prototype.propertyIsEnumerable.call(s, p[i])) t[p[i]] = s[p[i]]; } return t; }; __decorate = function (decorators, target, key, desc) { var c = arguments.length, r = c < 3 ? target : desc === null ? desc = Object.getOwnPropertyDescriptor(target, key) : desc, d; if (typeof Reflect === "object" && typeof Reflect.decorate === "function") r = Reflect.decorate(decorators, target, key, desc); else for (var i = decorators.length - 1; i >= 0; i--) if (d = decorators[i]) r = (c < 3 ? d(r) : c > 3 ? d(target, key, r) : d(target, key)) || r; return c > 3 && r && Object.defineProperty(target, key, r), r; }; __param = function (paramIndex, decorator) { return function (target, key) { decorator(target, key, paramIndex); } }; __metadata = function (metadataKey, metadataValue) { if (typeof Reflect === "object" && typeof Reflect.metadata === "function") return Reflect.metadata(metadataKey, metadataValue); }; __awaiter = function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; __generator = function (thisArg, body) { var _ = { label: 0, sent: function() { if (t[0] & 1) throw t[1]; return t[1]; }, trys: [], ops: [] }, f, y, t, g; return g = { next: verb(0), "throw": verb(1), "return": verb(2) }, typeof Symbol === "function" && (g[Symbol.iterator] = function() { return this; }), g; function verb(n) { return function (v) { return step([n, v]); }; } function step(op) { if (f) throw new TypeError("Generator is already executing."); while (_) try { if (f = 1, y && (t = op[0] & 2 ? y["return"] : op[0] ? y["throw"] || ((t = y["return"]) && t.call(y), 0) : y.next) && !(t = t.call(y, op[1])).done) return t; if (y = 0, t) op = [op[0] & 2, t.value]; switch (op[0]) { case 0: case 1: t = op; break; case 4: _.label++; return { value: op[1], done: false }; case 5: _.label++; y = op[1]; op = [0]; continue; case 7: op = _.ops.pop(); _.trys.pop(); continue; default: if (!(t = _.trys, t = t.length > 0 && t[t.length - 1]) && (op[0] === 6 || op[0] === 2)) { _ = 0; continue; } if (op[0] === 3 && (!t || (op[1] > t[0] && op[1] < t[3]))) { _.label = op[1]; break; } if (op[0] === 6 && _.label < t[1]) { _.label = t[1]; t = op; break; } if (t && _.label < t[2]) { _.label = t[2]; _.ops.push(op); break; } if (t[2]) _.ops.pop(); _.trys.pop(); continue; } op = body.call(thisArg, _); } catch (e) { op = [6, e]; y = 0; } finally { f = t = 0; } if (op[0] & 5) throw op[1]; return { value: op[0] ? op[1] : void 0, done: true }; } }; __exportStar = function(m, o) { for (var p in m) if (p !== "default" && !Object.prototype.hasOwnProperty.call(o, p)) __createBinding(o, m, p); }; __createBinding = Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } }); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; }); __values = function (o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; __read = function (o, n) { var m = typeof Symbol === "function" && o[Symbol.iterator]; if (!m) return o; var i = m.call(o), r, ar = [], e; try { while ((n === void 0 || n-- > 0) && !(r = i.next()).done) ar.push(r.value); } catch (error) { e = { error: error }; } finally { try { if (r && !r.done && (m = i["return"])) m.call(i); } finally { if (e) throw e.error; } } return ar; }; /** @deprecated */ __spread = function () { for (var ar = [], i = 0; i < arguments.length; i++) ar = ar.concat(__read(arguments[i])); return ar; }; /** @deprecated */ __spreadArrays = function () { for (var s = 0, i = 0, il = arguments.length; i < il; i++) s += arguments[i].length; for (var r = Array(s), k = 0, i = 0; i < il; i++) for (var a = arguments[i], j = 0, jl = a.length; j < jl; j++, k++) r[k] = a[j]; return r; }; __spreadArray = function (to, from, pack) { if (pack || arguments.length === 2) for (var i = 0, l = from.length, ar; i < l; i++) { if (ar || !(i in from)) { if (!ar) ar = Array.prototype.slice.call(from, 0, i); ar[i] = from[i]; } } return to.concat(ar || Array.prototype.slice.call(from)); }; __await = function (v) { return this instanceof __await ? (this.v = v, this) : new __await(v); }; __asyncGenerator = function (thisArg, _arguments, generator) { if (!Symbol.asyncIterator) throw new TypeError("Symbol.asyncIterator is not defined."); var g = generator.apply(thisArg, _arguments || []), i, q = []; return i = {}, verb("next"), verb("throw"), verb("return"), i[Symbol.asyncIterator] = function () { return this; }, i; function verb(n) { if (g[n]) i[n] = function (v) { return new Promise(function (a, b) { q.push([n, v, a, b]) > 1 || resume(n, v); }); }; } function resume(n, v) { try { step(g[n](v)); } catch (e) { settle(q[0][3], e); } } function step(r) { r.value instanceof __await ? Promise.resolve(r.value.v).then(fulfill, reject) : settle(q[0][2], r); } function fulfill(value) { resume("next", value); } function reject(value) { resume("throw", value); } function settle(f, v) { if (f(v), q.shift(), q.length) resume(q[0][0], q[0][1]); } }; __asyncDelegator = function (o) { var i, p; return i = {}, verb("next"), verb("throw", function (e) { throw e; }), verb("return"), i[Symbol.iterator] = function () { return this; }, i; function verb(n, f) { i[n] = o[n] ? function (v) { return (p = !p) ? { value: __await(o[n](v)), done: n === "return" } : f ? f(v) : v; } : f; } }; __asyncValues = function (o) { if (!Symbol.asyncIterator) throw new TypeError("Symbol.asyncIterator is not defined."); var m = o[Symbol.asyncIterator], i; return m ? m.call(o) : (o = typeof __values === "function" ? __values(o) : o[Symbol.iterator](), i = {}, verb("next"), verb("throw"), verb("return"), i[Symbol.asyncIterator] = function () { return this; }, i); function verb(n) { i[n] = o[n] && function (v) { return new Promise(function (resolve, reject) { v = o[n](v), settle(resolve, reject, v.done, v.value); }); }; } function settle(resolve, reject, d, v) { Promise.resolve(v).then(function(v) { resolve({ value: v, done: d }); }, reject); } }; __makeTemplateObject = function (cooked, raw) { if (Object.defineProperty) { Object.defineProperty(cooked, "raw", { value: raw }); } else { cooked.raw = raw; } return cooked; }; var __setModuleDefault = Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }; __importStar = function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.prototype.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; __importDefault = function (mod) { return (mod && mod.__esModule) ? mod : { "default": mod }; }; __classPrivateFieldGet = function (receiver, state, kind, f) { if (kind === "a" && !f) throw new TypeError("Private accessor was defined without a getter"); if (typeof state === "function" ? receiver !== state || !f : !state.has(receiver)) throw new TypeError("Cannot read private member from an object whose class did not declare it"); return kind === "m" ? f : kind === "a" ? f.call(receiver) : f ? f.value : state.get(receiver); }; __classPrivateFieldSet = function (receiver, state, value, kind, f) { if (kind === "m") throw new TypeError("Private method is not writable"); if (kind === "a" && !f) throw new TypeError("Private accessor was defined without a setter"); if (typeof state === "function" ? receiver !== state || !f : !state.has(receiver)) throw new TypeError("Cannot write private member to an object whose class did not declare it"); return (kind === "a" ? f.call(receiver, value) : f ? f.value = value : state.set(receiver, value)), value; }; exporter("__extends", __extends); exporter("__assign", __assign); exporter("__rest", __rest); exporter("__decorate", __decorate); exporter("__param", __param); exporter("__metadata", __metadata); exporter("__awaiter", __awaiter); exporter("__generator", __generator); exporter("__exportStar", __exportStar); exporter("__createBinding", __createBinding); exporter("__values", __values); exporter("__read", __read); exporter("__spread", __spread); exporter("__spreadArrays", __spreadArrays); exporter("__spreadArray", __spreadArray); exporter("__await", __await); exporter("__asyncGenerator", __asyncGenerator); exporter("__asyncDelegator", __asyncDelegator); exporter("__asyncValues", __asyncValues); exporter("__makeTemplateObject", __makeTemplateObject); exporter("__importStar", __importStar); exporter("__importDefault", __importDefault); exporter("__classPrivateFieldGet", __classPrivateFieldGet); exporter("__classPrivateFieldSet", __classPrivateFieldSet); }); /***/ }), /***/ 2856: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; const WritableStream = (__nccwpck_require__(84492).Writable) const inherits = (__nccwpck_require__(47261).inherits) const StreamSearch = __nccwpck_require__(88534) const PartStream = __nccwpck_require__(38710) const HeaderParser = __nccwpck_require__(90333) const DASH = 45 const B_ONEDASH = Buffer.from('-') const B_CRLF = Buffer.from('\r\n') const EMPTY_FN = function () {} function Dicer (cfg) { if (!(this instanceof Dicer)) { return new Dicer(cfg) } WritableStream.call(this, cfg) if (!cfg || (!cfg.headerFirst && typeof cfg.boundary !== 'string')) { throw new TypeError('Boundary required') } if (typeof cfg.boundary === 'string') { this.setBoundary(cfg.boundary) } else { this._bparser = undefined } this._headerFirst = cfg.headerFirst this._dashes = 0 this._parts = 0 this._finished = false this._realFinish = false this._isPreamble = true this._justMatched = false this._firstWrite = true this._inHeader = true this._part = undefined this._cb = undefined this._ignoreData = false this._partOpts = { highWaterMark: cfg.partHwm } this._pause = false const self = this this._hparser = new HeaderParser(cfg) this._hparser.on('header', function (header) { self._inHeader = false self._part.emit('header', header) }) } inherits(Dicer, WritableStream) Dicer.prototype.emit = function (ev) { if (ev === 'finish' && !this._realFinish) { if (!this._finished) { const self = this process.nextTick(function () { self.emit('error', new Error('Unexpected end of multipart data')) if (self._part && !self._ignoreData) { const type = (self._isPreamble ? 'Preamble' : 'Part') self._part.emit('error', new Error(type + ' terminated early due to unexpected end of multipart data')) self._part.push(null) process.nextTick(function () { self._realFinish = true self.emit('finish') self._realFinish = false }) return } self._realFinish = true self.emit('finish') self._realFinish = false }) } } else { WritableStream.prototype.emit.apply(this, arguments) } } Dicer.prototype._write = function (data, encoding, cb) { // ignore unexpected data (e.g. extra trailer data after finished) if (!this._hparser && !this._bparser) { return cb() } if (this._headerFirst && this._isPreamble) { if (!this._part) { this._part = new PartStream(this._partOpts) if (this._events.preamble) { this.emit('preamble', this._part) } else { this._ignore() } } const r = this._hparser.push(data) if (!this._inHeader && r !== undefined && r < data.length) { data = data.slice(r) } else { return cb() } } // allows for "easier" testing if (this._firstWrite) { this._bparser.push(B_CRLF) this._firstWrite = false } this._bparser.push(data) if (this._pause) { this._cb = cb } else { cb() } } Dicer.prototype.reset = function () { this._part = undefined this._bparser = undefined this._hparser = undefined } Dicer.prototype.setBoundary = function (boundary) { const self = this this._bparser = new StreamSearch('\r\n--' + boundary) this._bparser.on('info', function (isMatch, data, start, end) { self._oninfo(isMatch, data, start, end) }) } Dicer.prototype._ignore = function () { if (this._part && !this._ignoreData) { this._ignoreData = true this._part.on('error', EMPTY_FN) // we must perform some kind of read on the stream even though we are // ignoring the data, otherwise node's Readable stream will not emit 'end' // after pushing null to the stream this._part.resume() } } Dicer.prototype._oninfo = function (isMatch, data, start, end) { let buf; const self = this; let i = 0; let r; let shouldWriteMore = true if (!this._part && this._justMatched && data) { while (this._dashes < 2 && (start + i) < end) { if (data[start + i] === DASH) { ++i ++this._dashes } else { if (this._dashes) { buf = B_ONEDASH } this._dashes = 0 break } } if (this._dashes === 2) { if ((start + i) < end && this._events.trailer) { this.emit('trailer', data.slice(start + i, end)) } this.reset() this._finished = true // no more parts will be added if (self._parts === 0) { self._realFinish = true self.emit('finish') self._realFinish = false } } if (this._dashes) { return } } if (this._justMatched) { this._justMatched = false } if (!this._part) { this._part = new PartStream(this._partOpts) this._part._read = function (n) { self._unpause() } if (this._isPreamble && this._events.preamble) { this.emit('preamble', this._part) } else if (this._isPreamble !== true && this._events.part) { this.emit('part', this._part) } else { this._ignore() } if (!this._isPreamble) { this._inHeader = true } } if (data && start < end && !this._ignoreData) { if (this._isPreamble || !this._inHeader) { if (buf) { shouldWriteMore = this._part.push(buf) } shouldWriteMore = this._part.push(data.slice(start, end)) if (!shouldWriteMore) { this._pause = true } } else if (!this._isPreamble && this._inHeader) { if (buf) { this._hparser.push(buf) } r = this._hparser.push(data.slice(start, end)) if (!this._inHeader && r !== undefined && r < end) { this._oninfo(false, data, start + r, end) } } } if (isMatch) { this._hparser.reset() if (this._isPreamble) { this._isPreamble = false } else { if (start !== end) { ++this._parts this._part.on('end', function () { if (--self._parts === 0) { if (self._finished) { self._realFinish = true self.emit('finish') self._realFinish = false } else { self._unpause() } } }) } } this._part.push(null) this._part = undefined this._ignoreData = false this._justMatched = true this._dashes = 0 } } Dicer.prototype._unpause = function () { if (!this._pause) { return } this._pause = false if (this._cb) { const cb = this._cb this._cb = undefined cb() } } module.exports = Dicer /***/ }), /***/ 90333: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; const EventEmitter = (__nccwpck_require__(15673).EventEmitter) const inherits = (__nccwpck_require__(47261).inherits) const getLimit = __nccwpck_require__(49692) const StreamSearch = __nccwpck_require__(88534) const B_DCRLF = Buffer.from('\r\n\r\n') const RE_CRLF = /\r\n/g const RE_HDR = /^([^:]+):[ \t]?([\x00-\xFF]+)?$/ // eslint-disable-line no-control-regex function HeaderParser (cfg) { EventEmitter.call(this) cfg = cfg || {} const self = this this.nread = 0 this.maxed = false this.npairs = 0 this.maxHeaderPairs = getLimit(cfg, 'maxHeaderPairs', 2000) this.maxHeaderSize = getLimit(cfg, 'maxHeaderSize', 80 * 1024) this.buffer = '' this.header = {} this.finished = false this.ss = new StreamSearch(B_DCRLF) this.ss.on('info', function (isMatch, data, start, end) { if (data && !self.maxed) { if (self.nread + end - start >= self.maxHeaderSize) { end = self.maxHeaderSize - self.nread + start self.nread = self.maxHeaderSize self.maxed = true } else { self.nread += (end - start) } self.buffer += data.toString('binary', start, end) } if (isMatch) { self._finish() } }) } inherits(HeaderParser, EventEmitter) HeaderParser.prototype.push = function (data) { const r = this.ss.push(data) if (this.finished) { return r } } HeaderParser.prototype.reset = function () { this.finished = false this.buffer = '' this.header = {} this.ss.reset() } HeaderParser.prototype._finish = function () { if (this.buffer) { this._parseHeader() } this.ss.matches = this.ss.maxMatches const header = this.header this.header = {} this.buffer = '' this.finished = true this.nread = this.npairs = 0 this.maxed = false this.emit('header', header) } HeaderParser.prototype._parseHeader = function () { if (this.npairs === this.maxHeaderPairs) { return } const lines = this.buffer.split(RE_CRLF) const len = lines.length let m, h for (var i = 0; i < len; ++i) { // eslint-disable-line no-var if (lines[i].length === 0) { continue } if (lines[i][0] === '\t' || lines[i][0] === ' ') { // folded header content // RFC2822 says to just remove the CRLF and not the whitespace following // it, so we follow the RFC and include the leading whitespace ... if (h) { this.header[h][this.header[h].length - 1] += lines[i] continue } } const posColon = lines[i].indexOf(':') if ( posColon === -1 || posColon === 0 ) { return } m = RE_HDR.exec(lines[i]) h = m[1].toLowerCase() this.header[h] = this.header[h] || [] this.header[h].push((m[2] || '')) if (++this.npairs === this.maxHeaderPairs) { break } } } module.exports = HeaderParser /***/ }), /***/ 38710: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; const inherits = (__nccwpck_require__(47261).inherits) const ReadableStream = (__nccwpck_require__(84492).Readable) function PartStream (opts) { ReadableStream.call(this, opts) } inherits(PartStream, ReadableStream) PartStream.prototype._read = function (n) {} module.exports = PartStream /***/ }), /***/ 88534: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; /** * Copyright Brian White. All rights reserved. * * @see https://github.com/mscdex/streamsearch * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to * deal in the Software without restriction, including without limitation the * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or * sell copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS * IN THE SOFTWARE. * * Based heavily on the Streaming Boyer-Moore-Horspool C++ implementation * by Hongli Lai at: https://github.com/FooBarWidget/boyer-moore-horspool */ const EventEmitter = (__nccwpck_require__(15673).EventEmitter) const inherits = (__nccwpck_require__(47261).inherits) function SBMH (needle) { if (typeof needle === 'string') { needle = Buffer.from(needle) } if (!Buffer.isBuffer(needle)) { throw new TypeError('The needle has to be a String or a Buffer.') } const needleLength = needle.length if (needleLength === 0) { throw new Error('The needle cannot be an empty String/Buffer.') } if (needleLength > 256) { throw new Error('The needle cannot have a length bigger than 256.') } this.maxMatches = Infinity this.matches = 0 this._occ = new Array(256) .fill(needleLength) // Initialize occurrence table. this._lookbehind_size = 0 this._needle = needle this._bufpos = 0 this._lookbehind = Buffer.alloc(needleLength) // Populate occurrence table with analysis of the needle, // ignoring last letter. for (var i = 0; i < needleLength - 1; ++i) { // eslint-disable-line no-var this._occ[needle[i]] = needleLength - 1 - i } } inherits(SBMH, EventEmitter) SBMH.prototype.reset = function () { this._lookbehind_size = 0 this.matches = 0 this._bufpos = 0 } SBMH.prototype.push = function (chunk, pos) { if (!Buffer.isBuffer(chunk)) { chunk = Buffer.from(chunk, 'binary') } const chlen = chunk.length this._bufpos = pos || 0 let r while (r !== chlen && this.matches < this.maxMatches) { r = this._sbmh_feed(chunk) } return r } SBMH.prototype._sbmh_feed = function (data) { const len = data.length const needle = this._needle const needleLength = needle.length const lastNeedleChar = needle[needleLength - 1] // Positive: points to a position in `data` // pos == 3 points to data[3] // Negative: points to a position in the lookbehind buffer // pos == -2 points to lookbehind[lookbehind_size - 2] let pos = -this._lookbehind_size let ch if (pos < 0) { // Lookbehind buffer is not empty. Perform Boyer-Moore-Horspool // search with character lookup code that considers both the // lookbehind buffer and the current round's haystack data. // // Loop until // there is a match. // or until // we've moved past the position that requires the // lookbehind buffer. In this case we switch to the // optimized loop. // or until // the character to look at lies outside the haystack. while (pos < 0 && pos <= len - needleLength) { ch = this._sbmh_lookup_char(data, pos + needleLength - 1) if ( ch === lastNeedleChar && this._sbmh_memcmp(data, pos, needleLength - 1) ) { this._lookbehind_size = 0 ++this.matches this.emit('info', true) return (this._bufpos = pos + needleLength) } pos += this._occ[ch] } // No match. if (pos < 0) { // There's too few data for Boyer-Moore-Horspool to run, // so let's use a different algorithm to skip as much as // we can. // Forward pos until // the trailing part of lookbehind + data // looks like the beginning of the needle // or until // pos == 0 while (pos < 0 && !this._sbmh_memcmp(data, pos, len - pos)) { ++pos } } if (pos >= 0) { // Discard lookbehind buffer. this.emit('info', false, this._lookbehind, 0, this._lookbehind_size) this._lookbehind_size = 0 } else { // Cut off part of the lookbehind buffer that has // been processed and append the entire haystack // into it. const bytesToCutOff = this._lookbehind_size + pos if (bytesToCutOff > 0) { // The cut off data is guaranteed not to contain the needle. this.emit('info', false, this._lookbehind, 0, bytesToCutOff) } this._lookbehind.copy(this._lookbehind, 0, bytesToCutOff, this._lookbehind_size - bytesToCutOff) this._lookbehind_size -= bytesToCutOff data.copy(this._lookbehind, this._lookbehind_size) this._lookbehind_size += len this._bufpos = len return len } } pos += (pos >= 0) * this._bufpos // Lookbehind buffer is now empty. We only need to check if the // needle is in the haystack. if (data.indexOf(needle, pos) !== -1) { pos = data.indexOf(needle, pos) ++this.matches if (pos > 0) { this.emit('info', true, data, this._bufpos, pos) } else { this.emit('info', true) } return (this._bufpos = pos + needleLength) } else { pos = len - needleLength } // There was no match. If there's trailing haystack data that we cannot // match yet using the Boyer-Moore-Horspool algorithm (because the trailing // data is less than the needle size) then match using a modified // algorithm that starts matching from the beginning instead of the end. // Whatever trailing data is left after running this algorithm is added to // the lookbehind buffer. while ( pos < len && ( data[pos] !== needle[0] || ( (Buffer.compare( data.subarray(pos, pos + len - pos), needle.subarray(0, len - pos) ) !== 0) ) ) ) { ++pos } if (pos < len) { data.copy(this._lookbehind, 0, pos, pos + (len - pos)) this._lookbehind_size = len - pos } // Everything until pos is guaranteed not to contain needle data. if (pos > 0) { this.emit('info', false, data, this._bufpos, pos < len ? pos : len) } this._bufpos = len return len } SBMH.prototype._sbmh_lookup_char = function (data, pos) { return (pos < 0) ? this._lookbehind[this._lookbehind_size + pos] : data[pos] } SBMH.prototype._sbmh_memcmp = function (data, pos, len) { for (var i = 0; i < len; ++i) { // eslint-disable-line no-var if (this._sbmh_lookup_char(data, pos + i) !== this._needle[i]) { return false } } return true } module.exports = SBMH /***/ }), /***/ 33438: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; const WritableStream = (__nccwpck_require__(84492).Writable) const { inherits } = __nccwpck_require__(47261) const Dicer = __nccwpck_require__(2856) const MultipartParser = __nccwpck_require__(90415) const UrlencodedParser = __nccwpck_require__(16780) const parseParams = __nccwpck_require__(34426) function Busboy (opts) { if (!(this instanceof Busboy)) { return new Busboy(opts) } if (typeof opts !== 'object') { throw new TypeError('Busboy expected an options-Object.') } if (typeof opts.headers !== 'object') { throw new TypeError('Busboy expected an options-Object with headers-attribute.') } if (typeof opts.headers['content-type'] !== 'string') { throw new TypeError('Missing Content-Type-header.') } const { headers, ...streamOptions } = opts this.opts = { autoDestroy: false, ...streamOptions } WritableStream.call(this, this.opts) this._done = false this._parser = this.getParserByHeaders(headers) this._finished = false } inherits(Busboy, WritableStream) Busboy.prototype.emit = function (ev) { if (ev === 'finish') { if (!this._done) { this._parser?.end() return } else if (this._finished) { return } this._finished = true } WritableStream.prototype.emit.apply(this, arguments) } Busboy.prototype.getParserByHeaders = function (headers) { const parsed = parseParams(headers['content-type']) const cfg = { defCharset: this.opts.defCharset, fileHwm: this.opts.fileHwm, headers, highWaterMark: this.opts.highWaterMark, isPartAFile: this.opts.isPartAFile, limits: this.opts.limits, parsedConType: parsed, preservePath: this.opts.preservePath } if (MultipartParser.detect.test(parsed[0])) { return new MultipartParser(this, cfg) } if (UrlencodedParser.detect.test(parsed[0])) { return new UrlencodedParser(this, cfg) } throw new Error('Unsupported Content-Type.') } Busboy.prototype._write = function (chunk, encoding, cb) { this._parser.write(chunk, cb) } module.exports = Busboy module.exports["default"] = Busboy module.exports.Busboy = Busboy module.exports.Dicer = Dicer /***/ }), /***/ 90415: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; // TODO: // * support 1 nested multipart level // (see second multipart example here: // http://www.w3.org/TR/html401/interact/forms.html#didx-multipartform-data) // * support limits.fieldNameSize // -- this will require modifications to utils.parseParams const { Readable } = __nccwpck_require__(84492) const { inherits } = __nccwpck_require__(47261) const Dicer = __nccwpck_require__(2856) const parseParams = __nccwpck_require__(34426) const decodeText = __nccwpck_require__(99136) const basename = __nccwpck_require__(60496) const getLimit = __nccwpck_require__(49692) const RE_BOUNDARY = /^boundary$/i const RE_FIELD = /^form-data$/i const RE_CHARSET = /^charset$/i const RE_FILENAME = /^filename$/i const RE_NAME = /^name$/i Multipart.detect = /^multipart\/form-data/i function Multipart (boy, cfg) { let i let len const self = this let boundary const limits = cfg.limits const isPartAFile = cfg.isPartAFile || ((fieldName, contentType, fileName) => (contentType === 'application/octet-stream' || fileName !== undefined)) const parsedConType = cfg.parsedConType || [] const defCharset = cfg.defCharset || 'utf8' const preservePath = cfg.preservePath const fileOpts = { highWaterMark: cfg.fileHwm } for (i = 0, len = parsedConType.length; i < len; ++i) { if (Array.isArray(parsedConType[i]) && RE_BOUNDARY.test(parsedConType[i][0])) { boundary = parsedConType[i][1] break } } function checkFinished () { if (nends === 0 && finished && !boy._done) { finished = false self.end() } } if (typeof boundary !== 'string') { throw new Error('Multipart: Boundary not found') } const fieldSizeLimit = getLimit(limits, 'fieldSize', 1 * 1024 * 1024) const fileSizeLimit = getLimit(limits, 'fileSize', Infinity) const filesLimit = getLimit(limits, 'files', Infinity) const fieldsLimit = getLimit(limits, 'fields', Infinity) const partsLimit = getLimit(limits, 'parts', Infinity) const headerPairsLimit = getLimit(limits, 'headerPairs', 2000) const headerSizeLimit = getLimit(limits, 'headerSize', 80 * 1024) let nfiles = 0 let nfields = 0 let nends = 0 let curFile let curField let finished = false this._needDrain = false this._pause = false this._cb = undefined this._nparts = 0 this._boy = boy const parserCfg = { boundary, maxHeaderPairs: headerPairsLimit, maxHeaderSize: headerSizeLimit, partHwm: fileOpts.highWaterMark, highWaterMark: cfg.highWaterMark } this.parser = new Dicer(parserCfg) this.parser.on('drain', function () { self._needDrain = false if (self._cb && !self._pause) { const cb = self._cb self._cb = undefined cb() } }).on('part', function onPart (part) { if (++self._nparts > partsLimit) { self.parser.removeListener('part', onPart) self.parser.on('part', skipPart) boy.hitPartsLimit = true boy.emit('partsLimit') return skipPart(part) } // hack because streams2 _always_ doesn't emit 'end' until nextTick, so let // us emit 'end' early since we know the part has ended if we are already // seeing the next part if (curField) { const field = curField field.emit('end') field.removeAllListeners('end') } part.on('header', function (header) { let contype let fieldname let parsed let charset let encoding let filename let nsize = 0 if (header['content-type']) { parsed = parseParams(header['content-type'][0]) if (parsed[0]) { contype = parsed[0].toLowerCase() for (i = 0, len = parsed.length; i < len; ++i) { if (RE_CHARSET.test(parsed[i][0])) { charset = parsed[i][1].toLowerCase() break } } } } if (contype === undefined) { contype = 'text/plain' } if (charset === undefined) { charset = defCharset } if (header['content-disposition']) { parsed = parseParams(header['content-disposition'][0]) if (!RE_FIELD.test(parsed[0])) { return skipPart(part) } for (i = 0, len = parsed.length; i < len; ++i) { if (RE_NAME.test(parsed[i][0])) { fieldname = parsed[i][1] } else if (RE_FILENAME.test(parsed[i][0])) { filename = parsed[i][1] if (!preservePath) { filename = basename(filename) } } } } else { return skipPart(part) } if (header['content-transfer-encoding']) { encoding = header['content-transfer-encoding'][0].toLowerCase() } else { encoding = '7bit' } let onData, onEnd if (isPartAFile(fieldname, contype, filename)) { // file/binary field if (nfiles === filesLimit) { if (!boy.hitFilesLimit) { boy.hitFilesLimit = true boy.emit('filesLimit') } return skipPart(part) } ++nfiles if (!boy._events.file) { self.parser._ignore() return } ++nends const file = new FileStream(fileOpts) curFile = file file.on('end', function () { --nends self._pause = false checkFinished() if (self._cb && !self._needDrain) { const cb = self._cb self._cb = undefined cb() } }) file._read = function (n) { if (!self._pause) { return } self._pause = false if (self._cb && !self._needDrain) { const cb = self._cb self._cb = undefined cb() } } boy.emit('file', fieldname, file, filename, encoding, contype) onData = function (data) { if ((nsize += data.length) > fileSizeLimit) { const extralen = fileSizeLimit - nsize + data.length if (extralen > 0) { file.push(data.slice(0, extralen)) } file.truncated = true file.bytesRead = fileSizeLimit part.removeAllListeners('data') file.emit('limit') return } else if (!file.push(data)) { self._pause = true } file.bytesRead = nsize } onEnd = function () { curFile = undefined file.push(null) } } else { // non-file field if (nfields === fieldsLimit) { if (!boy.hitFieldsLimit) { boy.hitFieldsLimit = true boy.emit('fieldsLimit') } return skipPart(part) } ++nfields ++nends let buffer = '' let truncated = false curField = part onData = function (data) { if ((nsize += data.length) > fieldSizeLimit) { const extralen = (fieldSizeLimit - (nsize - data.length)) buffer += data.toString('binary', 0, extralen) truncated = true part.removeAllListeners('data') } else { buffer += data.toString('binary') } } onEnd = function () { curField = undefined if (buffer.length) { buffer = decodeText(buffer, 'binary', charset) } boy.emit('field', fieldname, buffer, false, truncated, encoding, contype) --nends checkFinished() } } /* As of node@2efe4ab761666 (v0.10.29+/v0.11.14+), busboy had become broken. Streams2/streams3 is a huge black box of confusion, but somehow overriding the sync state seems to fix things again (and still seems to work for previous node versions). */ part._readableState.sync = false part.on('data', onData) part.on('end', onEnd) }).on('error', function (err) { if (curFile) { curFile.emit('error', err) } }) }).on('error', function (err) { boy.emit('error', err) }).on('finish', function () { finished = true checkFinished() }) } Multipart.prototype.write = function (chunk, cb) { const r = this.parser.write(chunk) if (r && !this._pause) { cb() } else { this._needDrain = !r this._cb = cb } } Multipart.prototype.end = function () { const self = this if (self.parser.writable) { self.parser.end() } else if (!self._boy._done) { process.nextTick(function () { self._boy._done = true self._boy.emit('finish') }) } } function skipPart (part) { part.resume() } function FileStream (opts) { Readable.call(this, opts) this.bytesRead = 0 this.truncated = false } inherits(FileStream, Readable) FileStream.prototype._read = function (n) {} module.exports = Multipart /***/ }), /***/ 16780: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; const Decoder = __nccwpck_require__(89730) const decodeText = __nccwpck_require__(99136) const getLimit = __nccwpck_require__(49692) const RE_CHARSET = /^charset$/i UrlEncoded.detect = /^application\/x-www-form-urlencoded/i function UrlEncoded (boy, cfg) { const limits = cfg.limits const parsedConType = cfg.parsedConType this.boy = boy this.fieldSizeLimit = getLimit(limits, 'fieldSize', 1 * 1024 * 1024) this.fieldNameSizeLimit = getLimit(limits, 'fieldNameSize', 100) this.fieldsLimit = getLimit(limits, 'fields', Infinity) let charset for (var i = 0, len = parsedConType.length; i < len; ++i) { // eslint-disable-line no-var if (Array.isArray(parsedConType[i]) && RE_CHARSET.test(parsedConType[i][0])) { charset = parsedConType[i][1].toLowerCase() break } } if (charset === undefined) { charset = cfg.defCharset || 'utf8' } this.decoder = new Decoder() this.charset = charset this._fields = 0 this._state = 'key' this._checkingBytes = true this._bytesKey = 0 this._bytesVal = 0 this._key = '' this._val = '' this._keyTrunc = false this._valTrunc = false this._hitLimit = false } UrlEncoded.prototype.write = function (data, cb) { if (this._fields === this.fieldsLimit) { if (!this.boy.hitFieldsLimit) { this.boy.hitFieldsLimit = true this.boy.emit('fieldsLimit') } return cb() } let idxeq; let idxamp; let i; let p = 0; const len = data.length while (p < len) { if (this._state === 'key') { idxeq = idxamp = undefined for (i = p; i < len; ++i) { if (!this._checkingBytes) { ++p } if (data[i] === 0x3D/* = */) { idxeq = i break } else if (data[i] === 0x26/* & */) { idxamp = i break } if (this._checkingBytes && this._bytesKey === this.fieldNameSizeLimit) { this._hitLimit = true break } else if (this._checkingBytes) { ++this._bytesKey } } if (idxeq !== undefined) { // key with assignment if (idxeq > p) { this._key += this.decoder.write(data.toString('binary', p, idxeq)) } this._state = 'val' this._hitLimit = false this._checkingBytes = true this._val = '' this._bytesVal = 0 this._valTrunc = false this.decoder.reset() p = idxeq + 1 } else if (idxamp !== undefined) { // key with no assignment ++this._fields let key; const keyTrunc = this._keyTrunc if (idxamp > p) { key = (this._key += this.decoder.write(data.toString('binary', p, idxamp))) } else { key = this._key } this._hitLimit = false this._checkingBytes = true this._key = '' this._bytesKey = 0 this._keyTrunc = false this.decoder.reset() if (key.length) { this.boy.emit('field', decodeText(key, 'binary', this.charset), '', keyTrunc, false) } p = idxamp + 1 if (this._fields === this.fieldsLimit) { return cb() } } else if (this._hitLimit) { // we may not have hit the actual limit if there are encoded bytes... if (i > p) { this._key += this.decoder.write(data.toString('binary', p, i)) } p = i if ((this._bytesKey = this._key.length) === this.fieldNameSizeLimit) { // yep, we actually did hit the limit this._checkingBytes = false this._keyTrunc = true } } else { if (p < len) { this._key += this.decoder.write(data.toString('binary', p)) } p = len } } else { idxamp = undefined for (i = p; i < len; ++i) { if (!this._checkingBytes) { ++p } if (data[i] === 0x26/* & */) { idxamp = i break } if (this._checkingBytes && this._bytesVal === this.fieldSizeLimit) { this._hitLimit = true break } else if (this._checkingBytes) { ++this._bytesVal } } if (idxamp !== undefined) { ++this._fields if (idxamp > p) { this._val += this.decoder.write(data.toString('binary', p, idxamp)) } this.boy.emit('field', decodeText(this._key, 'binary', this.charset), decodeText(this._val, 'binary', this.charset), this._keyTrunc, this._valTrunc) this._state = 'key' this._hitLimit = false this._checkingBytes = true this._key = '' this._bytesKey = 0 this._keyTrunc = false this.decoder.reset() p = idxamp + 1 if (this._fields === this.fieldsLimit) { return cb() } } else if (this._hitLimit) { // we may not have hit the actual limit if there are encoded bytes... if (i > p) { this._val += this.decoder.write(data.toString('binary', p, i)) } p = i if ((this._val === '' && this.fieldSizeLimit === 0) || (this._bytesVal = this._val.length) === this.fieldSizeLimit) { // yep, we actually did hit the limit this._checkingBytes = false this._valTrunc = true } } else { if (p < len) { this._val += this.decoder.write(data.toString('binary', p)) } p = len } } } cb() } UrlEncoded.prototype.end = function () { if (this.boy._done) { return } if (this._state === 'key' && this._key.length > 0) { this.boy.emit('field', decodeText(this._key, 'binary', this.charset), '', this._keyTrunc, false) } else if (this._state === 'val') { this.boy.emit('field', decodeText(this._key, 'binary', this.charset), decodeText(this._val, 'binary', this.charset), this._keyTrunc, this._valTrunc) } this.boy._done = true this.boy.emit('finish') } module.exports = UrlEncoded /***/ }), /***/ 89730: /***/ ((module) => { "use strict"; const RE_PLUS = /\+/g const HEX = [ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 ] function Decoder () { this.buffer = undefined } Decoder.prototype.write = function (str) { // Replace '+' with ' ' before decoding str = str.replace(RE_PLUS, ' ') let res = '' let i = 0; let p = 0; const len = str.length for (; i < len; ++i) { if (this.buffer !== undefined) { if (!HEX[str.charCodeAt(i)]) { res += '%' + this.buffer this.buffer = undefined --i // retry character } else { this.buffer += str[i] ++p if (this.buffer.length === 2) { res += String.fromCharCode(parseInt(this.buffer, 16)) this.buffer = undefined } } } else if (str[i] === '%') { if (i > p) { res += str.substring(p, i) p = i } this.buffer = '' ++p } } if (p < len && this.buffer === undefined) { res += str.substring(p) } return res } Decoder.prototype.reset = function () { this.buffer = undefined } module.exports = Decoder /***/ }), /***/ 60496: /***/ ((module) => { "use strict"; module.exports = function basename (path) { if (typeof path !== 'string') { return '' } for (var i = path.length - 1; i >= 0; --i) { // eslint-disable-line no-var switch (path.charCodeAt(i)) { case 0x2F: // '/' case 0x5C: // '\' path = path.slice(i + 1) return (path === '..' || path === '.' ? '' : path) } } return (path === '..' || path === '.' ? '' : path) } /***/ }), /***/ 99136: /***/ ((module) => { "use strict"; // Node has always utf-8 const utf8Decoder = new TextDecoder('utf-8') const textDecoders = new Map([ ['utf-8', utf8Decoder], ['utf8', utf8Decoder] ]) function decodeText (text, textEncoding, destEncoding) { if (text) { if (textDecoders.has(destEncoding)) { try { return textDecoders.get(destEncoding).decode(Buffer.from(text, textEncoding)) } catch (e) { } } else { try { textDecoders.set(destEncoding, new TextDecoder(destEncoding)) return textDecoders.get(destEncoding).decode(Buffer.from(text, textEncoding)) } catch (e) { } } } return text } module.exports = decodeText /***/ }), /***/ 49692: /***/ ((module) => { "use strict"; module.exports = function getLimit (limits, name, defaultLimit) { if ( !limits || limits[name] === undefined || limits[name] === null ) { return defaultLimit } if ( typeof limits[name] !== 'number' || isNaN(limits[name]) ) { throw new TypeError('Limit ' + name + ' is not a valid number') } return limits[name] } /***/ }), /***/ 34426: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; const decodeText = __nccwpck_require__(99136) const RE_ENCODED = /%([a-fA-F0-9]{2})/g function encodedReplacer (match, byte) { return String.fromCharCode(parseInt(byte, 16)) } function parseParams (str) { const res = [] let state = 'key' let charset = '' let inquote = false let escaping = false let p = 0 let tmp = '' for (var i = 0, len = str.length; i < len; ++i) { // eslint-disable-line no-var const char = str[i] if (char === '\\' && inquote) { if (escaping) { escaping = false } else { escaping = true continue } } else if (char === '"') { if (!escaping) { if (inquote) { inquote = false state = 'key' } else { inquote = true } continue } else { escaping = false } } else { if (escaping && inquote) { tmp += '\\' } escaping = false if ((state === 'charset' || state === 'lang') && char === "'") { if (state === 'charset') { state = 'lang' charset = tmp.substring(1) } else { state = 'value' } tmp = '' continue } else if (state === 'key' && (char === '*' || char === '=') && res.length) { if (char === '*') { state = 'charset' } else { state = 'value' } res[p] = [tmp, undefined] tmp = '' continue } else if (!inquote && char === ';') { state = 'key' if (charset) { if (tmp.length) { tmp = decodeText(tmp.replace(RE_ENCODED, encodedReplacer), 'binary', charset) } charset = '' } else if (tmp.length) { tmp = decodeText(tmp, 'binary', 'utf8') } if (res[p] === undefined) { res[p] = tmp } else { res[p][1] = tmp } tmp = '' ++p continue } else if (!inquote && (char === ' ' || char === '\t')) { continue } } tmp += char } if (charset && tmp.length) { tmp = decodeText(tmp.replace(RE_ENCODED, encodedReplacer), 'binary', charset) } else if (tmp) { tmp = decodeText(tmp, 'binary', 'utf8') } if (res[p] === undefined) { if (tmp) { res[p] = tmp } } else { res[p][1] = tmp } return res } module.exports = parseParams /***/ }), /***/ 32206: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; Object.defineProperty(exports, "__esModule", ({ value: true })); var EventAlgorithm_1 = __nccwpck_require__(28217); /** * Adds an algorithm to the given abort signal. * * @param algorithm - an algorithm * @param signal - abort signal */ function abort_add(algorithm, signal) { /** * 1. If signal’s aborted flag is set, then return. * 2. Append algorithm to signal’s abort algorithms. */ if (signal._abortedFlag) return; signal._abortAlgorithms.add(algorithm); } exports.abort_add = abort_add; /** * Removes an algorithm from the given abort signal. * * @param algorithm - an algorithm * @param signal - abort signal */ function abort_remove(algorithm, signal) { /** * To remove an algorithm algorithm from an AbortSignal signal, remove * algorithm from signal’s abort algorithms. */ signal._abortAlgorithms.delete(algorithm); } exports.abort_remove = abort_remove; /** * Signals abort on the given abort signal. * * @param signal - abort signal */ function abort_signalAbort(signal) { var e_1, _a; /** * 1. If signal’s aborted flag is set, then return. * 2. Set signal’s aborted flag. * 3. For each algorithm in signal’s abort algorithms: run algorithm. * 4. Empty signal’s abort algorithms. * 5. Fire an event named abort at signal. */ if (signal._abortedFlag) return; signal._abortedFlag = true; try { for (var _b = __values(signal._abortAlgorithms), _c = _b.next(); !_c.done; _c = _b.next()) { var algorithm = _c.value; algorithm.call(signal); } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_1) throw e_1.error; } } signal._abortAlgorithms.clear(); EventAlgorithm_1.event_fireAnEvent("abort", signal); } exports.abort_signalAbort = abort_signalAbort; //# sourceMappingURL=AbortAlgorithm.js.map /***/ }), /***/ 84309: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var ElementAlgorithm_1 = __nccwpck_require__(51849); /** * Changes the value of an existing attribute. * * @param attribute - an attribute node * @param value - attribute value */ function attr_setAnExistingAttributeValue(attribute, value) { /** * 1. If attribute’s element is null, then set attribute’s value to value. * 2. Otherwise, change attribute from attribute’s element to value. */ if (attribute._element === null) { attribute._value = value; } else { ElementAlgorithm_1.element_change(attribute, attribute._element, value); } } exports.attr_setAnExistingAttributeValue = attr_setAnExistingAttributeValue; //# sourceMappingURL=AttrAlgorithm.js.map /***/ }), /***/ 81054: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var interfaces_1 = __nccwpck_require__(27305); var TreeAlgorithm_1 = __nccwpck_require__(16620); /** * Defines the position of a boundary point relative to another. * * @param bp - a boundary point * @param relativeTo - a boundary point to compare to */ function boundaryPoint_position(bp, relativeTo) { var nodeA = bp[0]; var offsetA = bp[1]; var nodeB = relativeTo[0]; var offsetB = relativeTo[1]; /** * 1. Assert: nodeA and nodeB have the same root. */ console.assert(TreeAlgorithm_1.tree_rootNode(nodeA) === TreeAlgorithm_1.tree_rootNode(nodeB), "Boundary points must share the same root node."); /** * 2. If nodeA is nodeB, then return equal if offsetA is offsetB, before * if offsetA is less than offsetB, and after if offsetA is greater than * offsetB. */ if (nodeA === nodeB) { if (offsetA === offsetB) { return interfaces_1.BoundaryPosition.Equal; } else if (offsetA < offsetB) { return interfaces_1.BoundaryPosition.Before; } else { return interfaces_1.BoundaryPosition.After; } } /** * 3. If nodeA is following nodeB, then if the position of (nodeB, offsetB) * relative to (nodeA, offsetA) is before, return after, and if it is after, * return before. */ if (TreeAlgorithm_1.tree_isFollowing(nodeB, nodeA)) { var pos = boundaryPoint_position([nodeB, offsetB], [nodeA, offsetA]); if (pos === interfaces_1.BoundaryPosition.Before) { return interfaces_1.BoundaryPosition.After; } else if (pos === interfaces_1.BoundaryPosition.After) { return interfaces_1.BoundaryPosition.Before; } } /** * 4. If nodeA is an ancestor of nodeB: */ if (TreeAlgorithm_1.tree_isAncestorOf(nodeB, nodeA)) { /** * 4.1. Let child be nodeB. * 4.2. While child is not a child of nodeA, set child to its parent. * 4.3. If child’s index is less than offsetA, then return after. */ var child = nodeB; while (!TreeAlgorithm_1.tree_isChildOf(nodeA, child)) { /* istanbul ignore else */ if (child._parent !== null) { child = child._parent; } } if (TreeAlgorithm_1.tree_index(child) < offsetA) { return interfaces_1.BoundaryPosition.After; } } /** * 5. Return before. */ return interfaces_1.BoundaryPosition.Before; } exports.boundaryPoint_position = boundaryPoint_position; //# sourceMappingURL=BoundaryPointAlgorithm.js.map /***/ }), /***/ 19461: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; Object.defineProperty(exports, "__esModule", ({ value: true })); var DOMImpl_1 = __nccwpck_require__(14177); var util_1 = __nccwpck_require__(65282); var DOMException_1 = __nccwpck_require__(13166); var TreeAlgorithm_1 = __nccwpck_require__(16620); var MutationObserverAlgorithm_1 = __nccwpck_require__(78157); var DOMAlgorithm_1 = __nccwpck_require__(9628); /** * Replaces character data. * * @param node - a character data node * @param offset - start offset * @param count - count of characters to replace * @param data - new data */ function characterData_replaceData(node, offset, count, data) { var e_1, _a; /** * 1. Let length be node’s length. * 2. If offset is greater than length, then throw an "IndexSizeError" * DOMException. * 3. If offset plus count is greater than length, then set count to length * minus offset. */ var length = TreeAlgorithm_1.tree_nodeLength(node); if (offset > length) { throw new DOMException_1.IndexSizeError("Offset exceeds character data length. Offset: " + offset + ", Length: " + length + ", Node is " + node.nodeName + "."); } if (offset + count > length) { count = length - offset; } /** * 4. Queue a mutation record of "characterData" for node with null, null, * node’s data, « », « », null, and null. */ if (DOMImpl_1.dom.features.mutationObservers) { MutationObserverAlgorithm_1.observer_queueMutationRecord("characterData", node, null, null, node._data, [], [], null, null); } /** * 5. Insert data into node’s data after offset code units. * 6. Let delete offset be offset + data’s length. * 7. Starting from delete offset code units, remove count code units from * node’s data. */ var newData = node._data.substring(0, offset) + data + node._data.substring(offset + count); node._data = newData; try { /** * 8. For each live range whose start node is node and start offset is * greater than offset but less than or equal to offset plus count, set its * start offset to offset. * 9. For each live range whose end node is node and end offset is greater * than offset but less than or equal to offset plus count, set its end * offset to offset. * 10. For each live range whose start node is node and start offset is * greater than offset plus count, increase its start offset by data’s * length and decrease it by count. * 11. For each live range whose end node is node and end offset is greater * than offset plus count, increase its end offset by data’s length and * decrease it by count. */ for (var _b = __values(DOMImpl_1.dom.rangeList), _c = _b.next(); !_c.done; _c = _b.next()) { var range = _c.value; if (range._start[0] === node && range._start[1] > offset && range._start[1] <= offset + count) { range._start[1] = offset; } if (range._end[0] === node && range._end[1] > offset && range._end[1] <= offset + count) { range._end[1] = offset; } if (range._start[0] === node && range._start[1] > offset + count) { range._start[1] += data.length - count; } if (range._end[0] === node && range._end[1] > offset + count) { range._end[1] += data.length - count; } } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_1) throw e_1.error; } } /** * 12. If node is a Text node and its parent is not null, run the child * text content change steps for node’s parent. */ if (DOMImpl_1.dom.features.steps) { if (util_1.Guard.isTextNode(node) && node._parent !== null) { DOMAlgorithm_1.dom_runChildTextContentChangeSteps(node._parent); } } } exports.characterData_replaceData = characterData_replaceData; /** * Returns `count` number of characters from `node`'s data starting at * the given `offset`. * * @param node - a character data node * @param offset - start offset * @param count - count of characters to return */ function characterData_substringData(node, offset, count) { /** * 1. Let length be node’s length. * 2. If offset is greater than length, then throw an "IndexSizeError" * DOMException. * 3. If offset plus count is greater than length, return a string whose * value is the code units from the offsetth code unit to the end of node’s * data, and then return. * 4. Return a string whose value is the code units from the offsetth code * unit to the offset+countth code unit in node’s data. */ var length = TreeAlgorithm_1.tree_nodeLength(node); if (offset > length) { throw new DOMException_1.IndexSizeError("Offset exceeds character data length. Offset: " + offset + ", Length: " + length + ", Node is " + node.nodeName + "."); } if (offset + count > length) { return node._data.substr(offset); } else { return node._data.substr(offset, count); } } exports.characterData_substringData = characterData_substringData; //# sourceMappingURL=CharacterDataAlgorithm.js.map /***/ }), /***/ 57339: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var DOMImplementationImpl_1 = __nccwpck_require__(42197); var WindowImpl_1 = __nccwpck_require__(69067); var XMLDocumentImpl_1 = __nccwpck_require__(21685); var DocumentImpl_1 = __nccwpck_require__(14333); var AbortControllerImpl_1 = __nccwpck_require__(66461); var AbortSignalImpl_1 = __nccwpck_require__(10022); var DocumentTypeImpl_1 = __nccwpck_require__(3173); var ElementImpl_1 = __nccwpck_require__(35975); var DocumentFragmentImpl_1 = __nccwpck_require__(12585); var ShadowRootImpl_1 = __nccwpck_require__(61911); var AttrImpl_1 = __nccwpck_require__(13717); var TextImpl_1 = __nccwpck_require__(42191); var CDATASectionImpl_1 = __nccwpck_require__(23977); var CommentImpl_1 = __nccwpck_require__(20930); var ProcessingInstructionImpl_1 = __nccwpck_require__(99430); var HTMLCollectionImpl_1 = __nccwpck_require__(93969); var NodeListImpl_1 = __nccwpck_require__(43728); var NodeListStaticImpl_1 = __nccwpck_require__(65306); var NamedNodeMapImpl_1 = __nccwpck_require__(57206); var RangeImpl_1 = __nccwpck_require__(50166); var NodeIteratorImpl_1 = __nccwpck_require__(61997); var TreeWalkerImpl_1 = __nccwpck_require__(89261); var NodeFilterImpl_1 = __nccwpck_require__(12355); var MutationRecordImpl_1 = __nccwpck_require__(6219); var DOMTokenListImpl_1 = __nccwpck_require__(65096); /** * Creates a `DOMImplementation`. * * @param document - associated document */ function create_domImplementation(document) { return DOMImplementationImpl_1.DOMImplementationImpl._create(document); } exports.create_domImplementation = create_domImplementation; /** * Creates a `Window` node. */ function create_window() { return WindowImpl_1.WindowImpl._create(); } exports.create_window = create_window; /** * Creates an `XMLDocument` node. */ function create_xmlDocument() { return new XMLDocumentImpl_1.XMLDocumentImpl(); } exports.create_xmlDocument = create_xmlDocument; /** * Creates a `Document` node. */ function create_document() { return new DocumentImpl_1.DocumentImpl(); } exports.create_document = create_document; /** * Creates an `AbortController`. */ function create_abortController() { return new AbortControllerImpl_1.AbortControllerImpl(); } exports.create_abortController = create_abortController; /** * Creates an `AbortSignal`. */ function create_abortSignal() { return AbortSignalImpl_1.AbortSignalImpl._create(); } exports.create_abortSignal = create_abortSignal; /** * Creates a `DocumentType` node. * * @param document - owner document * @param name - name of the node * @param publicId - `PUBLIC` identifier * @param systemId - `SYSTEM` identifier */ function create_documentType(document, name, publicId, systemId) { return DocumentTypeImpl_1.DocumentTypeImpl._create(document, name, publicId, systemId); } exports.create_documentType = create_documentType; /** * Creates a new `Element` node. * * @param document - owner document * @param localName - local name * @param namespace - namespace * @param prefix - namespace prefix */ function create_element(document, localName, namespace, prefix) { return ElementImpl_1.ElementImpl._create(document, localName, namespace, prefix); } exports.create_element = create_element; /** * Creates a new `HTMLElement` node. * * @param document - owner document * @param localName - local name * @param namespace - namespace * @param prefix - namespace prefix */ function create_htmlElement(document, localName, namespace, prefix) { // TODO: Implement in HTML DOM return ElementImpl_1.ElementImpl._create(document, localName, namespace, prefix); } exports.create_htmlElement = create_htmlElement; /** * Creates a new `HTMLUnknownElement` node. * * @param document - owner document * @param localName - local name * @param namespace - namespace * @param prefix - namespace prefix */ function create_htmlUnknownElement(document, localName, namespace, prefix) { // TODO: Implement in HTML DOM return ElementImpl_1.ElementImpl._create(document, localName, namespace, prefix); } exports.create_htmlUnknownElement = create_htmlUnknownElement; /** * Creates a new `DocumentFragment` node. * * @param document - owner document */ function create_documentFragment(document) { return DocumentFragmentImpl_1.DocumentFragmentImpl._create(document); } exports.create_documentFragment = create_documentFragment; /** * Creates a new `ShadowRoot` node. * * @param document - owner document * @param host - shadow root's host element node */ function create_shadowRoot(document, host) { return ShadowRootImpl_1.ShadowRootImpl._create(document, host); } exports.create_shadowRoot = create_shadowRoot; /** * Creates a new `Attr` node. * * @param document - owner document * @param localName - local name */ function create_attr(document, localName) { return AttrImpl_1.AttrImpl._create(document, localName); } exports.create_attr = create_attr; /** * Creates a new `Text` node. * * @param document - owner document * @param data - node contents */ function create_text(document, data) { return TextImpl_1.TextImpl._create(document, data); } exports.create_text = create_text; /** * Creates a new `CDATASection` node. * * @param document - owner document * @param data - node contents */ function create_cdataSection(document, data) { return CDATASectionImpl_1.CDATASectionImpl._create(document, data); } exports.create_cdataSection = create_cdataSection; /** * Creates a new `Comment` node. * * @param document - owner document * @param data - node contents */ function create_comment(document, data) { return CommentImpl_1.CommentImpl._create(document, data); } exports.create_comment = create_comment; /** * Creates a new `ProcessingInstruction` node. * * @param document - owner document * @param target - instruction target * @param data - node contents */ function create_processingInstruction(document, target, data) { return ProcessingInstructionImpl_1.ProcessingInstructionImpl._create(document, target, data); } exports.create_processingInstruction = create_processingInstruction; /** * Creates a new `HTMLCollection`. * * @param root - root node * @param filter - node filter */ function create_htmlCollection(root, filter) { if (filter === void 0) { filter = (function () { return true; }); } return HTMLCollectionImpl_1.HTMLCollectionImpl._create(root, filter); } exports.create_htmlCollection = create_htmlCollection; /** * Creates a new live `NodeList`. * * @param root - root node */ function create_nodeList(root) { return NodeListImpl_1.NodeListImpl._create(root); } exports.create_nodeList = create_nodeList; /** * Creates a new static `NodeList`. * * @param root - root node * @param items - a list of items to initialize the list */ function create_nodeListStatic(root, items) { return NodeListStaticImpl_1.NodeListStaticImpl._create(root, items); } exports.create_nodeListStatic = create_nodeListStatic; /** * Creates a new `NamedNodeMap`. * * @param element - parent element */ function create_namedNodeMap(element) { return NamedNodeMapImpl_1.NamedNodeMapImpl._create(element); } exports.create_namedNodeMap = create_namedNodeMap; /** * Creates a new `Range`. * * @param start - start point * @param end - end point */ function create_range(start, end) { return RangeImpl_1.RangeImpl._create(start, end); } exports.create_range = create_range; /** * Creates a new `NodeIterator`. * * @param root - iterator's root node * @param reference - reference node * @param pointerBeforeReference - whether the iterator is before or after the * reference node */ function create_nodeIterator(root, reference, pointerBeforeReference) { return NodeIteratorImpl_1.NodeIteratorImpl._create(root, reference, pointerBeforeReference); } exports.create_nodeIterator = create_nodeIterator; /** * Creates a new `TreeWalker`. * * @param root - iterator's root node * @param current - current node */ function create_treeWalker(root, current) { return TreeWalkerImpl_1.TreeWalkerImpl._create(root, current); } exports.create_treeWalker = create_treeWalker; /** * Creates a new `NodeFilter`. */ function create_nodeFilter() { return NodeFilterImpl_1.NodeFilterImpl._create(); } exports.create_nodeFilter = create_nodeFilter; /** * Creates a new `MutationRecord`. * * @param type - type of mutation: `"attributes"` for an attribute * mutation, `"characterData"` for a mutation to a CharacterData node * and `"childList"` for a mutation to the tree of nodes. * @param target - node affected by the mutation. * @param addedNodes - list of added nodes. * @param removedNodes - list of removed nodes. * @param previousSibling - previous sibling of added or removed nodes. * @param nextSibling - next sibling of added or removed nodes. * @param attributeName - local name of the changed attribute, * and `null` otherwise. * @param attributeNamespace - namespace of the changed attribute, * and `null` otherwise. * @param oldValue - value before mutation: attribute value for an attribute * mutation, node `data` for a mutation to a CharacterData node and `null` * for a mutation to the tree of nodes. */ function create_mutationRecord(type, target, addedNodes, removedNodes, previousSibling, nextSibling, attributeName, attributeNamespace, oldValue) { return MutationRecordImpl_1.MutationRecordImpl._create(type, target, addedNodes, removedNodes, previousSibling, nextSibling, attributeName, attributeNamespace, oldValue); } exports.create_mutationRecord = create_mutationRecord; /** * Creates a new `DOMTokenList`. * * @param element - associated element * @param attribute - associated attribute */ function create_domTokenList(element, attribute) { return DOMTokenListImpl_1.DOMTokenListImpl._create(element, attribute); } exports.create_domTokenList = create_domTokenList; //# sourceMappingURL=CreateAlgorithm.js.map /***/ }), /***/ 35648: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var PotentialCustomElementName = /[a-z]([\0-\t\x2D\._a-z\xB7\xC0-\xD6\xD8-\xF6\xF8-\u037D\u037F-\u1FFF\u200C\u200D\u203F\u2040\u2070-\u218F\u2C00-\u2FEF\u3001-\uD7FF\uF900-\uFDCF\uFDF0-\uFFFD]|[\uD800-\uDB7F][\uDC00-\uDFFF])*-([\0-\t\x2D\._a-z\xB7\xC0-\xD6\xD8-\xF6\xF8-\u037D\u037F-\u1FFF\u200C\u200D\u203F\u2040\u2070-\u218F\u2C00-\u2FEF\u3001-\uD7FF\uF900-\uFDCF\uFDF0-\uFFFD]|[\uD800-\uDB7F][\uDC00-\uDFFF])*/; var NamesWithHyphen = new Set(['annotation-xml', 'color-profile', 'font-face', 'font-face-src', 'font-face-uri', 'font-face-format', 'font-face-name', 'missing-glyph']); var ElementNames = new Set(['article', 'aside', 'blockquote', 'body', 'div', 'footer', 'h1', 'h2', 'h3', 'h4', 'h5', 'h6', 'header', 'main', 'nav', 'p', 'section', 'span']); var VoidElementNames = new Set(['area', 'base', 'basefont', 'bgsound', 'br', 'col', 'embed', 'frame', 'hr', 'img', 'input', 'keygen', 'link', 'menuitem', 'meta', 'param', 'source', 'track', 'wbr']); var ShadowHostNames = new Set(['article', 'aside', 'blockquote', 'body', 'div', 'footer', 'h1', 'h2', 'h3', 'h4', 'h5', 'h6', 'header', 'main', 'nav', 'p', 'section', 'span']); /** * Determines if the given string is a valid custom element name. * * @param name - a name string */ function customElement_isValidCustomElementName(name) { if (!PotentialCustomElementName.test(name)) return false; if (NamesWithHyphen.has(name)) return false; return true; } exports.customElement_isValidCustomElementName = customElement_isValidCustomElementName; /** * Determines if the given string is a valid element name. * * @param name - a name string */ function customElement_isValidElementName(name) { return (ElementNames.has(name)); } exports.customElement_isValidElementName = customElement_isValidElementName; /** * Determines if the given string is a void element name. * * @param name - a name string */ function customElement_isVoidElementName(name) { return (VoidElementNames.has(name)); } exports.customElement_isVoidElementName = customElement_isVoidElementName; /** * Determines if the given string is a valid shadow host element name. * * @param name - a name string */ function customElement_isValidShadowHostName(name) { return (ShadowHostNames.has(name)); } exports.customElement_isValidShadowHostName = customElement_isValidShadowHostName; /** * Enqueues an upgrade reaction for a custom element. * * @param element - a custom element * @param definition - a custom element definition */ function customElement_enqueueACustomElementUpgradeReaction(element, definition) { // TODO: Implement in HTML DOM } exports.customElement_enqueueACustomElementUpgradeReaction = customElement_enqueueACustomElementUpgradeReaction; /** * Enqueues a callback reaction for a custom element. * * @param element - a custom element * @param callbackName - name of the callback * @param args - callback arguments */ function customElement_enqueueACustomElementCallbackReaction(element, callbackName, args) { // TODO: Implement in HTML DOM } exports.customElement_enqueueACustomElementCallbackReaction = customElement_enqueueACustomElementCallbackReaction; /** * Upgrade a custom element. * * @param element - a custom element */ function customElement_upgrade(definition, element) { // TODO: Implement in HTML DOM } exports.customElement_upgrade = customElement_upgrade; /** * Tries to upgrade a custom element. * * @param element - a custom element */ function customElement_tryToUpgrade(element) { // TODO: Implement in HTML DOM } exports.customElement_tryToUpgrade = customElement_tryToUpgrade; /** * Looks up a custom element definition. * * @param document - a document * @param namespace - element namespace * @param localName - element local name * @param is - an `is` value */ function customElement_lookUpACustomElementDefinition(document, namespace, localName, is) { // TODO: Implement in HTML DOM return null; } exports.customElement_lookUpACustomElementDefinition = customElement_lookUpACustomElementDefinition; //# sourceMappingURL=CustomElementAlgorithm.js.map /***/ }), /***/ 9628: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; Object.defineProperty(exports, "__esModule", ({ value: true })); var DOMImpl_1 = __nccwpck_require__(14177); var TreeAlgorithm_1 = __nccwpck_require__(16620); var util_1 = __nccwpck_require__(65282); var ShadowTreeAlgorithm_1 = __nccwpck_require__(68733); var supportedTokens = new Map(); /** * Runs removing steps for node. * * @param removedNode - removed node * @param oldParent - old parent node */ function dom_runRemovingSteps(removedNode, oldParent) { // No steps defined } exports.dom_runRemovingSteps = dom_runRemovingSteps; /** * Runs cloning steps for node. * * @param copy - node clone * @param node - node * @param document - document to own the cloned node * @param cloneChildrenFlag - whether child nodes are cloned */ function dom_runCloningSteps(copy, node, document, cloneChildrenFlag) { // No steps defined } exports.dom_runCloningSteps = dom_runCloningSteps; /** * Runs adopting steps for node. * * @param node - node * @param oldDocument - old document */ function dom_runAdoptingSteps(node, oldDocument) { // No steps defined } exports.dom_runAdoptingSteps = dom_runAdoptingSteps; /** * Runs attribute change steps for an element node. * * @param element - element node owning the attribute * @param localName - attribute's local name * @param oldValue - attribute's old value * @param value - attribute's new value * @param namespace - attribute's namespace */ function dom_runAttributeChangeSteps(element, localName, oldValue, value, namespace) { var e_1, _a; // run default steps if (DOMImpl_1.dom.features.slots) { updateASlotablesName.call(element, element, localName, oldValue, value, namespace); updateASlotsName.call(element, element, localName, oldValue, value, namespace); } updateAnElementID.call(element, element, localName, value, namespace); try { // run custom steps for (var _b = __values(element._attributeChangeSteps), _c = _b.next(); !_c.done; _c = _b.next()) { var step = _c.value; step.call(element, element, localName, oldValue, value, namespace); } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_1) throw e_1.error; } } } exports.dom_runAttributeChangeSteps = dom_runAttributeChangeSteps; /** * Runs insertion steps for a node. * * @param insertedNode - inserted node */ function dom_runInsertionSteps(insertedNode) { // No steps defined } exports.dom_runInsertionSteps = dom_runInsertionSteps; /** * Runs pre-removing steps for a node iterator and node. * * @param nodeIterator - a node iterator * @param toBeRemoved - node to be removed */ function dom_runNodeIteratorPreRemovingSteps(nodeIterator, toBeRemoved) { removeNodeIterator.call(nodeIterator, nodeIterator, toBeRemoved); } exports.dom_runNodeIteratorPreRemovingSteps = dom_runNodeIteratorPreRemovingSteps; /** * Determines if there are any supported tokens defined for the given * attribute name. * * @param attributeName - an attribute name */ function dom_hasSupportedTokens(attributeName) { return supportedTokens.has(attributeName); } exports.dom_hasSupportedTokens = dom_hasSupportedTokens; /** * Returns the set of supported tokens defined for the given attribute name. * * @param attributeName - an attribute name */ function dom_getSupportedTokens(attributeName) { return supportedTokens.get(attributeName) || new Set(); } exports.dom_getSupportedTokens = dom_getSupportedTokens; /** * Runs event construction steps. * * @param event - an event */ function dom_runEventConstructingSteps(event) { // No steps defined } exports.dom_runEventConstructingSteps = dom_runEventConstructingSteps; /** * Runs child text content change steps for a parent node. * * @param parent - parent node with text node child nodes */ function dom_runChildTextContentChangeSteps(parent) { // No steps defined } exports.dom_runChildTextContentChangeSteps = dom_runChildTextContentChangeSteps; /** * Defines pre-removing steps for a node iterator. */ function removeNodeIterator(nodeIterator, toBeRemovedNode) { /** * 1. If toBeRemovedNode is not an inclusive ancestor of nodeIterator’s * reference, or toBeRemovedNode is nodeIterator’s root, then return. */ if (toBeRemovedNode === nodeIterator._root || !TreeAlgorithm_1.tree_isAncestorOf(nodeIterator._reference, toBeRemovedNode, true)) { return; } /** * 2. If nodeIterator’s pointer before reference is true, then: */ if (nodeIterator._pointerBeforeReference) { /** * 2.1. Let next be toBeRemovedNode’s first following node that is an * inclusive descendant of nodeIterator’s root and is not an inclusive * descendant of toBeRemovedNode, and null if there is no such node. */ while (true) { var nextNode = TreeAlgorithm_1.tree_getFollowingNode(nodeIterator._root, toBeRemovedNode); if (nextNode !== null && TreeAlgorithm_1.tree_isDescendantOf(nodeIterator._root, nextNode, true) && !TreeAlgorithm_1.tree_isDescendantOf(toBeRemovedNode, nextNode, true)) { /** * 2.2. If next is non-null, then set nodeIterator’s reference to next * and return. */ nodeIterator._reference = nextNode; return; } else if (nextNode === null) { /** * 2.3. Otherwise, set nodeIterator’s pointer before reference to false. */ nodeIterator._pointerBeforeReference = false; return; } } } /** * 3. Set nodeIterator’s reference to toBeRemovedNode’s parent, if * toBeRemovedNode’s previous sibling is null, and to the inclusive * descendant of toBeRemovedNode’s previous sibling that appears last in * tree order otherwise. */ if (toBeRemovedNode._previousSibling === null) { if (toBeRemovedNode._parent !== null) { nodeIterator._reference = toBeRemovedNode._parent; } } else { var referenceNode = toBeRemovedNode._previousSibling; var childNode = TreeAlgorithm_1.tree_getFirstDescendantNode(toBeRemovedNode._previousSibling, true, false); while (childNode !== null) { if (childNode !== null) { referenceNode = childNode; } // loop through to get the last descendant node childNode = TreeAlgorithm_1.tree_getNextDescendantNode(toBeRemovedNode._previousSibling, childNode, true, false); } nodeIterator._reference = referenceNode; } } /** * Defines attribute change steps to update a slot’s name. */ function updateASlotsName(element, localName, oldValue, value, namespace) { /** * 1. If element is a slot, localName is name, and namespace is null, then: * 1.1. If value is oldValue, then return. * 1.2. If value is null and oldValue is the empty string, then return. * 1.3. If value is the empty string and oldValue is null, then return. * 1.4. If value is null or the empty string, then set element’s name to the * empty string. * 1.5. Otherwise, set element’s name to value. * 1.6. Run assign slotables for a tree with element’s root. */ if (util_1.Guard.isSlot(element) && localName === "name" && namespace === null) { if (value === oldValue) return; if (value === null && oldValue === '') return; if (value === '' && oldValue === null) return; if ((value === null || value === '')) { element._name = ''; } else { element._name = value; } ShadowTreeAlgorithm_1.shadowTree_assignSlotablesForATree(TreeAlgorithm_1.tree_rootNode(element)); } } /** * Defines attribute change steps to update a slotable’s name. */ function updateASlotablesName(element, localName, oldValue, value, namespace) { /** * 1. If localName is slot and namespace is null, then: * 1.1. If value is oldValue, then return. * 1.2. If value is null and oldValue is the empty string, then return. * 1.3. If value is the empty string and oldValue is null, then return. * 1.4. If value is null or the empty string, then set element’s name to * the empty string. * 1.5. Otherwise, set element’s name to value. * 1.6. If element is assigned, then run assign slotables for element’s * assigned slot. * 1.7. Run assign a slot for element. */ if (util_1.Guard.isSlotable(element) && localName === "slot" && namespace === null) { if (value === oldValue) return; if (value === null && oldValue === '') return; if (value === '' && oldValue === null) return; if ((value === null || value === '')) { element._name = ''; } else { element._name = value; } if (ShadowTreeAlgorithm_1.shadowTree_isAssigned(element)) { ShadowTreeAlgorithm_1.shadowTree_assignSlotables(element._assignedSlot); } ShadowTreeAlgorithm_1.shadowTree_assignASlot(element); } } /** * Defines attribute change steps to update an element's ID. */ function updateAnElementID(element, localName, value, namespace) { /** * 1. If localName is id, namespace is null, and value is null or the empty * string, then unset element’s ID. * 2. Otherwise, if localName is id, namespace is null, then set element’s * ID to value. */ if (localName === "id" && namespace === null) { if (!value) element._uniqueIdentifier = undefined; else element._uniqueIdentifier = value; } } //# sourceMappingURL=DOMAlgorithm.js.map /***/ }), /***/ 93261: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var OrderedSetAlgorithm_1 = __nccwpck_require__(53670); var DOMAlgorithm_1 = __nccwpck_require__(9628); var ElementAlgorithm_1 = __nccwpck_require__(51849); /** * Validates a given token against the supported tokens defined for the given * token lists' associated attribute. * * @param tokenList - a token list * @param token - a token */ function tokenList_validationSteps(tokenList, token) { /** * 1. If the associated attribute’s local name does not define supported * tokens, throw a TypeError. * 2. Let lowercase token be a copy of token, in ASCII lowercase. * 3. If lowercase token is present in supported tokens, return true. * 4. Return false. */ if (!DOMAlgorithm_1.dom_hasSupportedTokens(tokenList._attribute._localName)) { throw new TypeError("There are no supported tokens defined for attribute name: '" + tokenList._attribute._localName + "'."); } return DOMAlgorithm_1.dom_getSupportedTokens(tokenList._attribute._localName).has(token.toLowerCase()); } exports.tokenList_validationSteps = tokenList_validationSteps; /** * Updates the value of the token lists' associated attribute. * * @param tokenList - a token list */ function tokenList_updateSteps(tokenList) { /** * 1. If the associated element does not have an associated attribute and * token set is empty, then return. * 2. Set an attribute value for the associated element using associated * attribute’s local name and the result of running the ordered set * serializer for token set. */ if (!tokenList._element.hasAttribute(tokenList._attribute._localName) && tokenList._tokenSet.size === 0) { return; } ElementAlgorithm_1.element_setAnAttributeValue(tokenList._element, tokenList._attribute._localName, OrderedSetAlgorithm_1.orderedSet_serialize(tokenList._tokenSet)); } exports.tokenList_updateSteps = tokenList_updateSteps; /** * Gets the value of the token lists' associated attribute. * * @param tokenList - a token list */ function tokenList_serializeSteps(tokenList) { /** * A DOMTokenList object’s serialize steps are to return the result of * running get an attribute value given the associated element and the * associated attribute’s local name. */ return ElementAlgorithm_1.element_getAnAttributeValue(tokenList._element, tokenList._attribute._localName); } exports.tokenList_serializeSteps = tokenList_serializeSteps; //# sourceMappingURL=DOMTokenListAlgorithm.js.map /***/ }), /***/ 12793: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __read = (this && this.__read) || function (o, n) { var m = typeof Symbol === "function" && o[Symbol.iterator]; if (!m) return o; var i = m.call(o), r, ar = [], e; try { while ((n === void 0 || n-- > 0) && !(r = i.next()).done) ar.push(r.value); } catch (error) { e = { error: error }; } finally { try { if (r && !r.done && (m = i["return"])) m.call(i); } finally { if (e) throw e.error; } } return ar; }; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; Object.defineProperty(exports, "__esModule", ({ value: true })); var DOMImpl_1 = __nccwpck_require__(14177); var util_1 = __nccwpck_require__(65282); var util_2 = __nccwpck_require__(76195); var ElementImpl_1 = __nccwpck_require__(35975); var CustomElementAlgorithm_1 = __nccwpck_require__(35648); var TreeAlgorithm_1 = __nccwpck_require__(16620); var NamespaceAlgorithm_1 = __nccwpck_require__(35856); var DOMAlgorithm_1 = __nccwpck_require__(9628); var ElementAlgorithm_1 = __nccwpck_require__(51849); var MutationAlgorithm_1 = __nccwpck_require__(45463); /** * Returns an element interface for the given name and namespace. * * @param name - element name * @param namespace - namespace */ function document_elementInterface(name, namespace) { return ElementImpl_1.ElementImpl; } exports.document_elementInterface = document_elementInterface; /** * Creates a new element node. * See: https://dom.spec.whatwg.org/#internal-createelementns-steps * * @param document - owner document * @param namespace - element namespace * @param qualifiedName - qualified name * @param options - element options */ function document_internalCreateElementNS(document, namespace, qualifiedName, options) { /** * 1. Let namespace, prefix, and localName be the result of passing * namespace and qualifiedName to validate and extract. * 2. Let is be null. * 3. If options is a dictionary and options’s is is present, then set * is to it. * 4. Return the result of creating an element given document, localName, * namespace, prefix, is, and with the synchronous custom elements flag set. */ var _a = __read(NamespaceAlgorithm_1.namespace_validateAndExtract(namespace, qualifiedName), 3), ns = _a[0], prefix = _a[1], localName = _a[2]; var is = null; if (options !== undefined) { if (util_2.isString(options)) { is = options; } else { is = options.is; } } return ElementAlgorithm_1.element_createAnElement(document, localName, ns, prefix, is, true); } exports.document_internalCreateElementNS = document_internalCreateElementNS; /** * Removes `node` and its subtree from its document and changes * its owner document to `document` so that it can be inserted * into `document`. * * @param node - the node to move * @param document - document to receive the node and its subtree */ function document_adopt(node, document) { var e_1, _a; // Optimize for common case of inserting a fresh node if (node._nodeDocument === document && node._parent === null) { return; } /** * 1. Let oldDocument be node’s node document. * 2. If node’s parent is not null, remove node from its parent. */ var oldDocument = node._nodeDocument; if (node._parent) MutationAlgorithm_1.mutation_remove(node, node._parent); /** * 3. If document is not oldDocument, then: */ if (document !== oldDocument) { /** * 3.1. For each inclusiveDescendant in node’s shadow-including inclusive * descendants: */ var inclusiveDescendant = TreeAlgorithm_1.tree_getFirstDescendantNode(node, true, true); while (inclusiveDescendant !== null) { /** * 3.1.1. Set inclusiveDescendant’s node document to document. * 3.1.2. If inclusiveDescendant is an element, then set the node * document of each attribute in inclusiveDescendant’s attribute list * to document. */ inclusiveDescendant._nodeDocument = document; if (util_1.Guard.isElementNode(inclusiveDescendant)) { try { for (var _b = (e_1 = void 0, __values(inclusiveDescendant._attributeList._asArray())), _c = _b.next(); !_c.done; _c = _b.next()) { var attr = _c.value; attr._nodeDocument = document; } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_1) throw e_1.error; } } } /** * 3.2. For each inclusiveDescendant in node's shadow-including * inclusive descendants that is custom, enqueue a custom * element callback reaction with inclusiveDescendant, * callback name "adoptedCallback", and an argument list * containing oldDocument and document. */ if (DOMImpl_1.dom.features.customElements) { if (util_1.Guard.isElementNode(inclusiveDescendant) && inclusiveDescendant._customElementState === "custom") { CustomElementAlgorithm_1.customElement_enqueueACustomElementCallbackReaction(inclusiveDescendant, "adoptedCallback", [oldDocument, document]); } } /** * 3.3. For each inclusiveDescendant in node’s shadow-including * inclusive descendants, in shadow-including tree order, run the * adopting steps with inclusiveDescendant and oldDocument. */ if (DOMImpl_1.dom.features.steps) { DOMAlgorithm_1.dom_runAdoptingSteps(inclusiveDescendant, oldDocument); } inclusiveDescendant = TreeAlgorithm_1.tree_getNextDescendantNode(node, inclusiveDescendant, true, true); } } } exports.document_adopt = document_adopt; //# sourceMappingURL=DocumentAlgorithm.js.map /***/ }), /***/ 51849: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var DOMImpl_1 = __nccwpck_require__(14177); var infra_1 = __nccwpck_require__(84251); var util_1 = __nccwpck_require__(65282); var DOMException_1 = __nccwpck_require__(13166); var CreateAlgorithm_1 = __nccwpck_require__(57339); var CustomElementAlgorithm_1 = __nccwpck_require__(35648); var MutationObserverAlgorithm_1 = __nccwpck_require__(78157); var DOMAlgorithm_1 = __nccwpck_require__(9628); var MutationAlgorithm_1 = __nccwpck_require__(45463); var DocumentAlgorithm_1 = __nccwpck_require__(12793); /** * Determines whether the element's attribute list contains the given * attribute. * * @param attribute - an attribute node * @param element - an element node */ function element_has(attribute, element) { /** * An element has an attribute A if its attribute list contains A. */ return element._attributeList._asArray().indexOf(attribute) !== -1; } exports.element_has = element_has; /** * Changes the value of an attribute node. * * @param attribute - an attribute node * @param element - an element node * @param value - attribute value */ function element_change(attribute, element, value) { /** * 1. Queue an attribute mutation record for element with attribute’s * local name, attribute’s namespace, and attribute’s value. */ if (DOMImpl_1.dom.features.mutationObservers) { MutationObserverAlgorithm_1.observer_queueAttributeMutationRecord(element, attribute._localName, attribute._namespace, attribute._value); } /** * 2. If element is custom, then enqueue a custom element callback reaction * with element, callback name "attributeChangedCallback", and an argument * list containing attribute’s local name, attribute’s value, value, and * attribute’s namespace. */ if (DOMImpl_1.dom.features.customElements) { if (util_1.Guard.isCustomElementNode(element)) { CustomElementAlgorithm_1.customElement_enqueueACustomElementCallbackReaction(element, "attributeChangedCallback", [attribute._localName, attribute._value, value, attribute._namespace]); } } /** * 3. Run the attribute change steps with element, attribute’s local name, * attribute’s value, value, and attribute’s namespace. * 4. Set attribute’s value to value. */ if (DOMImpl_1.dom.features.steps) { DOMAlgorithm_1.dom_runAttributeChangeSteps(element, attribute._localName, attribute._value, value, attribute._namespace); } attribute._value = value; } exports.element_change = element_change; /** * Appends an attribute to an element node. * * @param attribute - an attribute * @param element - an element to receive the attribute */ function element_append(attribute, element) { /** * 1. Queue an attribute mutation record for element with attribute’s * local name, attribute’s namespace, and null. */ if (DOMImpl_1.dom.features.mutationObservers) { MutationObserverAlgorithm_1.observer_queueAttributeMutationRecord(element, attribute._localName, attribute._namespace, null); } /** * 2. If element is custom, then enqueue a custom element callback reaction * with element, callback name "attributeChangedCallback", and an argument * list containing attribute’s local name, null, attribute’s value, and * attribute’s namespace. */ if (DOMImpl_1.dom.features.customElements) { if (util_1.Guard.isCustomElementNode(element)) { CustomElementAlgorithm_1.customElement_enqueueACustomElementCallbackReaction(element, "attributeChangedCallback", [attribute._localName, null, attribute._value, attribute._namespace]); } } /** * 3. Run the attribute change steps with element, attribute’s local name, * null, attribute’s value, and attribute’s namespace. */ if (DOMImpl_1.dom.features.steps) { DOMAlgorithm_1.dom_runAttributeChangeSteps(element, attribute._localName, null, attribute._value, attribute._namespace); } /** * 4. Append attribute to element’s attribute list. * 5. Set attribute’s element to element. */ element._attributeList._asArray().push(attribute); attribute._element = element; // mark that the document has namespaces if (!element._nodeDocument._hasNamespaces && (attribute._namespace !== null || attribute._namespacePrefix !== null || attribute._localName === "xmlns")) { element._nodeDocument._hasNamespaces = true; } } exports.element_append = element_append; /** * Removes an attribute from an element node. * * @param attribute - an attribute * @param element - an element to receive the attribute */ function element_remove(attribute, element) { /** * 1. Queue an attribute mutation record for element with attribute’s * local name, attribute’s namespace, and attribute’s value. */ if (DOMImpl_1.dom.features.mutationObservers) { MutationObserverAlgorithm_1.observer_queueAttributeMutationRecord(element, attribute._localName, attribute._namespace, attribute._value); } /** * 2. If element is custom, then enqueue a custom element callback reaction * with element, callback name "attributeChangedCallback", and an argument * list containing attribute’s local name, attribute’s value, null, * and attribute’s namespace. */ if (DOMImpl_1.dom.features.customElements) { if (util_1.Guard.isCustomElementNode(element)) { CustomElementAlgorithm_1.customElement_enqueueACustomElementCallbackReaction(element, "attributeChangedCallback", [attribute._localName, attribute._value, null, attribute._namespace]); } } /** * 3. Run the attribute change steps with element, attribute’s local name, * attribute’s value, null, and attribute’s namespace. */ if (DOMImpl_1.dom.features.steps) { DOMAlgorithm_1.dom_runAttributeChangeSteps(element, attribute._localName, attribute._value, null, attribute._namespace); } /** * 3. Remove attribute from element’s attribute list. * 5. Set attribute’s element to null. */ var index = element._attributeList._asArray().indexOf(attribute); element._attributeList._asArray().splice(index, 1); attribute._element = null; } exports.element_remove = element_remove; /** * Replaces an attribute with another of an element node. * * @param oldAttr - old attribute * @param newAttr - new attribute * @param element - an element to receive the attribute */ function element_replace(oldAttr, newAttr, element) { /** * 1. Queue an attribute mutation record for element with oldAttr’s * local name, oldAttr’s namespace, and oldAttr’s value. */ if (DOMImpl_1.dom.features.mutationObservers) { MutationObserverAlgorithm_1.observer_queueAttributeMutationRecord(element, oldAttr._localName, oldAttr._namespace, oldAttr._value); } /** * 2. If element is custom, then enqueue a custom element callback reaction * with element, callback name "attributeChangedCallback", and an argument * list containing oldAttr’s local name, oldAttr’s value, newAttr’s value, * and oldAttr’s namespace. */ if (DOMImpl_1.dom.features.customElements) { if (util_1.Guard.isCustomElementNode(element)) { CustomElementAlgorithm_1.customElement_enqueueACustomElementCallbackReaction(element, "attributeChangedCallback", [oldAttr._localName, oldAttr._value, newAttr._value, oldAttr._namespace]); } } /** * 3. Run the attribute change steps with element, oldAttr’s local name, * oldAttr’s value, newAttr’s value, and oldAttr’s namespace. */ if (DOMImpl_1.dom.features.steps) { DOMAlgorithm_1.dom_runAttributeChangeSteps(element, oldAttr._localName, oldAttr._value, newAttr._value, oldAttr._namespace); } /** * 4. Replace oldAttr by newAttr in element’s attribute list. * 5. Set oldAttr’s element to null. * 6. Set newAttr’s element to element. */ var index = element._attributeList._asArray().indexOf(oldAttr); if (index !== -1) { element._attributeList._asArray()[index] = newAttr; } oldAttr._element = null; newAttr._element = element; // mark that the document has namespaces if (!element._nodeDocument._hasNamespaces && (newAttr._namespace !== null || newAttr._namespacePrefix !== null || newAttr._localName === "xmlns")) { element._nodeDocument._hasNamespaces = true; } } exports.element_replace = element_replace; /** * Retrieves an attribute with the given name from an element node. * * @param qualifiedName - an attribute name * @param element - an element to receive the attribute */ function element_getAnAttributeByName(qualifiedName, element) { /** * 1. If element is in the HTML namespace and its node document is an HTML * document, then set qualifiedName to qualifiedName in ASCII lowercase. * 2. Return the first attribute in element’s attribute list whose qualified * name is qualifiedName, and null otherwise. */ if (element._namespace === infra_1.namespace.HTML && element._nodeDocument._type === "html") { qualifiedName = qualifiedName.toLowerCase(); } return element._attributeList._asArray().find(function (attr) { return attr._qualifiedName === qualifiedName; }) || null; } exports.element_getAnAttributeByName = element_getAnAttributeByName; /** * Retrieves an attribute with the given namespace and local name from an * element node. * * @param namespace - an attribute namespace * @param localName - an attribute local name * @param element - an element to receive the attribute */ function element_getAnAttributeByNamespaceAndLocalName(namespace, localName, element) { /** * 1. If namespace is the empty string, set it to null. * 2. Return the attribute in element’s attribute list whose namespace is * namespace and local name is localName, if any, and null otherwise. */ var ns = namespace || null; return element._attributeList._asArray().find(function (attr) { return attr._namespace === ns && attr._localName === localName; }) || null; } exports.element_getAnAttributeByNamespaceAndLocalName = element_getAnAttributeByNamespaceAndLocalName; /** * Retrieves an attribute's value with the given name namespace and local * name from an element node. * * @param element - an element to receive the attribute * @param localName - an attribute local name * @param namespace - an attribute namespace */ function element_getAnAttributeValue(element, localName, namespace) { if (namespace === void 0) { namespace = ''; } /** * 1. Let attr be the result of getting an attribute given namespace, * localName, and element. * 2. If attr is null, then return the empty string. * 3. Return attr’s value. */ var attr = element_getAnAttributeByNamespaceAndLocalName(namespace, localName, element); if (attr === null) return ''; else return attr._value; } exports.element_getAnAttributeValue = element_getAnAttributeValue; /** * Sets an attribute of an element node. * * @param attr - an attribute * @param element - an element to receive the attribute */ function element_setAnAttribute(attr, element) { /** * 1. If attr’s element is neither null nor element, throw an * "InUseAttributeError" DOMException. * 2. Let oldAttr be the result of getting an attribute given attr’s * namespace, attr’s local name, and element. * 3. If oldAttr is attr, return attr. * 4. If oldAttr is non-null, replace it by attr in element. * 5. Otherwise, append attr to element. * 6. Return oldAttr. */ if (attr._element !== null && attr._element !== element) throw new DOMException_1.InUseAttributeError("This attribute already exists in the document: " + attr._qualifiedName + " as a child of " + attr._element._qualifiedName + "."); var oldAttr = element_getAnAttributeByNamespaceAndLocalName(attr._namespace || '', attr._localName, element); if (oldAttr === attr) return attr; if (oldAttr !== null) { element_replace(oldAttr, attr, element); } else { element_append(attr, element); } return oldAttr; } exports.element_setAnAttribute = element_setAnAttribute; /** * Sets an attribute's value of an element node. * * @param element - an element to receive the attribute * @param localName - an attribute local name * @param value - an attribute value * @param prefix - an attribute prefix * @param namespace - an attribute namespace */ function element_setAnAttributeValue(element, localName, value, prefix, namespace) { if (prefix === void 0) { prefix = null; } if (namespace === void 0) { namespace = null; } /** * 1. If prefix is not given, set it to null. * 2. If namespace is not given, set it to null. * 3. Let attribute be the result of getting an attribute given namespace, * localName, and element. * 4. If attribute is null, create an attribute whose namespace is * namespace, namespace prefix is prefix, local name is localName, value * is value, and node document is element’s node document, then append this * attribute to element, and then return. * 5. Change attribute from element to value. */ var attribute = element_getAnAttributeByNamespaceAndLocalName(namespace || '', localName, element); if (attribute === null) { var newAttr = CreateAlgorithm_1.create_attr(element._nodeDocument, localName); newAttr._namespace = namespace; newAttr._namespacePrefix = prefix; newAttr._value = value; element_append(newAttr, element); return; } element_change(attribute, element, value); } exports.element_setAnAttributeValue = element_setAnAttributeValue; /** * Removes an attribute with the given name from an element node. * * @param qualifiedName - an attribute name * @param element - an element to receive the attribute */ function element_removeAnAttributeByName(qualifiedName, element) { /** * 1. Let attr be the result of getting an attribute given qualifiedName * and element. * 2. If attr is non-null, remove it from element. * 3. Return attr. */ var attr = element_getAnAttributeByName(qualifiedName, element); if (attr !== null) { element_remove(attr, element); } return attr; } exports.element_removeAnAttributeByName = element_removeAnAttributeByName; /** * Removes an attribute with the given namespace and local name from an * element node. * * @param namespace - an attribute namespace * @param localName - an attribute local name * @param element - an element to receive the attribute */ function element_removeAnAttributeByNamespaceAndLocalName(namespace, localName, element) { /** * 1. Let attr be the result of getting an attribute given namespace, localName, and element. * 2. If attr is non-null, remove it from element. * 3. Return attr. */ var attr = element_getAnAttributeByNamespaceAndLocalName(namespace, localName, element); if (attr !== null) { element_remove(attr, element); } return attr; } exports.element_removeAnAttributeByNamespaceAndLocalName = element_removeAnAttributeByNamespaceAndLocalName; /** * Creates an element node. * See: https://dom.spec.whatwg.org/#concept-create-element. * * @param document - the document owning the element * @param localName - local name * @param namespace - element namespace * @param prefix - namespace prefix * @param is - the "is" value * @param synchronousCustomElementsFlag - synchronous custom elements flag */ function element_createAnElement(document, localName, namespace, prefix, is, synchronousCustomElementsFlag) { if (prefix === void 0) { prefix = null; } if (is === void 0) { is = null; } if (synchronousCustomElementsFlag === void 0) { synchronousCustomElementsFlag = false; } /** * 1. If prefix was not given, let prefix be null. * 2. If is was not given, let is be null. * 3. Let result be null. */ var result = null; if (!DOMImpl_1.dom.features.customElements) { result = CreateAlgorithm_1.create_element(document, localName, namespace, prefix); result._customElementState = "uncustomized"; result._customElementDefinition = null; result._is = is; return result; } /** * 4. Let definition be the result of looking up a custom element definition * given document, namespace, localName, and is. */ var definition = CustomElementAlgorithm_1.customElement_lookUpACustomElementDefinition(document, namespace, localName, is); if (definition !== null && definition.name !== definition.localName) { /** * 5. If definition is non-null, and definition’s name is not equal to * its local name (i.e., definition represents a customized built-in * element), then: * 5.1. Let interface be the element interface for localName and the HTML * namespace. * 5.2. Set result to a new element that implements interface, with no * attributes, namespace set to the HTML namespace, namespace prefix * set to prefix, local name set to localName, custom element state set * to "undefined", custom element definition set to null, is value set * to is, and node document set to document. * 5.3. If the synchronous custom elements flag is set, upgrade element * using definition. * 5.4. Otherwise, enqueue a custom element upgrade reaction given result * and definition. */ var elemenInterface = DocumentAlgorithm_1.document_elementInterface(localName, infra_1.namespace.HTML); result = new elemenInterface(); result._localName = localName; result._namespace = infra_1.namespace.HTML; result._namespacePrefix = prefix; result._customElementState = "undefined"; result._customElementDefinition = null; result._is = is; result._nodeDocument = document; if (synchronousCustomElementsFlag) { CustomElementAlgorithm_1.customElement_upgrade(definition, result); } else { CustomElementAlgorithm_1.customElement_enqueueACustomElementUpgradeReaction(result, definition); } } else if (definition !== null) { /** * 6. Otherwise, if definition is non-null, then: */ if (synchronousCustomElementsFlag) { /** * 6.1. If the synchronous custom elements flag is set, then run these * steps while catching any exceptions: */ try { /** * 6.1.1. Let C be definition’s constructor. * 6.1.2. Set result to the result of constructing C, with no arguments. * 6.1.3. Assert: result’s custom element state and custom element definition * are initialized. * 6.1.4. Assert: result’s namespace is the HTML namespace. * _Note:_ IDL enforces that result is an HTMLElement object, which all * use the HTML namespace. */ var C = definition.constructor; var result_1 = new C(); console.assert(result_1._customElementState !== undefined); console.assert(result_1._customElementDefinition !== undefined); console.assert(result_1._namespace === infra_1.namespace.HTML); /** * 6.1.5. If result’s attribute list is not empty, then throw a * "NotSupportedError" DOMException. * 6.1.6. If result has children, then throw a "NotSupportedError" * DOMException. * 6.1.7. If result’s parent is not null, then throw a * "NotSupportedError" DOMException. * 6.1.8. If result’s node document is not document, then throw a * "NotSupportedError" DOMException. * 6.1.9. If result’s local name is not equal to localName, then throw * a "NotSupportedError" DOMException. */ if (result_1._attributeList.length !== 0) throw new DOMException_1.NotSupportedError("Custom element already has attributes."); if (result_1._children.size !== 0) throw new DOMException_1.NotSupportedError("Custom element already has child nodes."); if (result_1._parent !== null) throw new DOMException_1.NotSupportedError("Custom element already has a parent node."); if (result_1._nodeDocument !== document) throw new DOMException_1.NotSupportedError("Custom element is already in a document."); if (result_1._localName !== localName) throw new DOMException_1.NotSupportedError("Custom element has a different local name."); /** * 6.1.10. Set result’s namespace prefix to prefix. * 6.1.11. Set result’s is value to null. */ result_1._namespacePrefix = prefix; result_1._is = null; } catch (e) { /** * If any of these steps threw an exception, then: * - Report the exception. * - Set result to a new element that implements the HTMLUnknownElement * interface, with no attributes, namespace set to the HTML namespace, * namespace prefix set to prefix, local name set to localName, custom * element state set to "failed", custom element definition set to null, * is value set to null, and node document set to document. */ // TODO: Report the exception result = CreateAlgorithm_1.create_htmlUnknownElement(document, localName, infra_1.namespace.HTML, prefix); result._customElementState = "failed"; result._customElementDefinition = null; result._is = null; } } else { /** * 6.2. Otherwise: * 6.2.1. Set result to a new element that implements the HTMLElement * interface, with no attributes, namespace set to the HTML namespace, * namespace prefix set to prefix, local name set to localName, custom * element state set to "undefined", custom element definition set to * null, is value set to null, and node document set to document. * 6.2.2. Enqueue a custom element upgrade reaction given result and * definition. */ result = CreateAlgorithm_1.create_htmlElement(document, localName, infra_1.namespace.HTML, prefix); result._customElementState = "undefined"; result._customElementDefinition = null; result._is = null; CustomElementAlgorithm_1.customElement_enqueueACustomElementUpgradeReaction(result, definition); } } else { /** * 7. Otherwise: * 7.1. Let interface be the element interface for localName and * namespace. * 7.2. Set result to a new element that implements interface, with no * attributes, namespace set to namespace, namespace prefix set to prefix, * local name set to localName, custom element state set to * "uncustomized", custom element definition set to null, is value set to * is, and node document set to document. */ var elementInterface = DocumentAlgorithm_1.document_elementInterface(localName, namespace); result = new elementInterface(); result._localName = localName; result._namespace = namespace; result._namespacePrefix = prefix; result._customElementState = "uncustomized"; result._customElementDefinition = null; result._is = is; result._nodeDocument = document; /** * 7.3. If namespace is the HTML namespace, and either localName is a * valid custom element name or is is non-null, then set result’s * custom element state to "undefined". */ if (namespace === infra_1.namespace.HTML && (is !== null || CustomElementAlgorithm_1.customElement_isValidCustomElementName(localName))) { result._customElementState = "undefined"; } } /* istanbul ignore next */ if (result === null) { throw new Error("Unable to create element."); } /** * 8. Returns result */ return result; } exports.element_createAnElement = element_createAnElement; /** * Inserts a new node adjacent to this element. * * @param element - a reference element * @param where - a string defining where to insert the element node. * - `beforebegin` before this element itself. * - `afterbegin` before the first child. * - `beforeend` after the last child. * - `afterend` after this element itself. * @param node - node to insert */ function element_insertAdjacent(element, where, node) { /** * - "beforebegin" * If element’s parent is null, return null. * Return the result of pre-inserting node into element’s parent before * element. * - "afterbegin" * Return the result of pre-inserting node into element before element’s * first child. * - "beforeend" * Return the result of pre-inserting node into element before null. * - "afterend" * If element’s parent is null, return null. * Return the result of pre-inserting node into element’s parent before element’s next sibling. * - Otherwise * Throw a "SyntaxError" DOMException. */ switch (where.toLowerCase()) { case 'beforebegin': if (element._parent === null) return null; return MutationAlgorithm_1.mutation_preInsert(node, element._parent, element); case 'afterbegin': return MutationAlgorithm_1.mutation_preInsert(node, element, element._firstChild); case 'beforeend': return MutationAlgorithm_1.mutation_preInsert(node, element, null); case 'afterend': if (element._parent === null) return null; return MutationAlgorithm_1.mutation_preInsert(node, element._parent, element._nextSibling); default: throw new DOMException_1.SyntaxError("Invalid 'where' argument. \"beforebegin\", \"afterbegin\", \"beforeend\" or \"afterend\" expected"); } } exports.element_insertAdjacent = element_insertAdjacent; //# sourceMappingURL=ElementAlgorithm.js.map /***/ }), /***/ 28217: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; var __read = (this && this.__read) || function (o, n) { var m = typeof Symbol === "function" && o[Symbol.iterator]; if (!m) return o; var i = m.call(o), r, ar = [], e; try { while ((n === void 0 || n-- > 0) && !(r = i.next()).done) ar.push(r.value); } catch (error) { e = { error: error }; } finally { try { if (r && !r.done && (m = i["return"])) m.call(i); } finally { if (e) throw e.error; } } return ar; }; var __spread = (this && this.__spread) || function () { for (var ar = [], i = 0; i < arguments.length; i++) ar = ar.concat(__read(arguments[i])); return ar; }; Object.defineProperty(exports, "__esModule", ({ value: true })); var DOMImpl_1 = __nccwpck_require__(14177); var interfaces_1 = __nccwpck_require__(27305); var util_1 = __nccwpck_require__(65282); var CustomEventImpl_1 = __nccwpck_require__(59857); var EventImpl_1 = __nccwpck_require__(38245); var DOMException_1 = __nccwpck_require__(13166); var TreeAlgorithm_1 = __nccwpck_require__(16620); var ShadowTreeAlgorithm_1 = __nccwpck_require__(68733); var DOMAlgorithm_1 = __nccwpck_require__(9628); /** * Sets the canceled flag of an event. * * @param event - an event */ function event_setTheCanceledFlag(event) { if (event._cancelable && !event._inPassiveListenerFlag) { event._canceledFlag = true; } } exports.event_setTheCanceledFlag = event_setTheCanceledFlag; /** * Initializes the value of an event. * * @param event - an event to initialize * @param type - the type of event * @param bubbles - whether the event propagates in reverse * @param cancelable - whether the event can be cancelled */ function event_initialize(event, type, bubbles, cancelable) { event._initializedFlag = true; event._stopPropagationFlag = false; event._stopImmediatePropagationFlag = false; event._canceledFlag = false; event._isTrusted = false; event._target = null; event._type = type; event._bubbles = bubbles; event._cancelable = cancelable; } exports.event_initialize = event_initialize; /** * Creates a new event. * * @param eventInterface - event interface * @param realm - realm */ function event_createAnEvent(eventInterface, realm) { if (realm === void 0) { realm = undefined; } /** * 1. If realm is not given, then set it to null. * 2. Let dictionary be the result of converting the JavaScript value * undefined to the dictionary type accepted by eventInterface’s * constructor. (This dictionary type will either be EventInit or a * dictionary that inherits from it.) * 3. Let event be the result of running the inner event creation steps with * eventInterface, realm, the time of the occurrence that the event is * signaling, and dictionary. * 4. Initialize event’s isTrusted attribute to true. * 5. Return event. */ if (realm === undefined) realm = null; var dictionary = {}; var event = event_innerEventCreationSteps(eventInterface, realm, new Date(), dictionary); event._isTrusted = true; return event; } exports.event_createAnEvent = event_createAnEvent; /** * Performs event creation steps. * * @param eventInterface - event interface * @param realm - realm * @param time - time of occurrance * @param dictionary - event attributes * */ function event_innerEventCreationSteps(eventInterface, realm, time, dictionary) { /** * 1. Let event be the result of creating a new object using eventInterface. * TODO: Implement realms * If realm is non-null, then use that Realm; otherwise, use the default * behavior defined in Web IDL. */ var event = new eventInterface(""); /** * 2. Set event’s initialized flag. * 3. Initialize event’s timeStamp attribute to a DOMHighResTimeStamp * representing the high resolution time from the time origin to time. * 4. For each member → value in dictionary, if event has an attribute * whose identifier is member, then initialize that attribute to value. * 5. Run the event constructing steps with event. * 6. Return event. */ event._initializedFlag = true; event._timeStamp = time.getTime(); Object.assign(event, dictionary); if (DOMImpl_1.dom.features.steps) { DOMAlgorithm_1.dom_runEventConstructingSteps(event); } return event; } exports.event_innerEventCreationSteps = event_innerEventCreationSteps; /** * Dispatches an event to an event target. * * @param event - the event to dispatch * @param target - event target * @param legacyTargetOverrideFlag - legacy target override flag * @param legacyOutputDidListenersThrowFlag - legacy output flag that returns * whether the event listener's callback threw an exception */ function event_dispatch(event, target, legacyTargetOverrideFlag, legacyOutputDidListenersThrowFlag) { var e_1, _a, e_2, _b; if (legacyTargetOverrideFlag === void 0) { legacyTargetOverrideFlag = false; } if (legacyOutputDidListenersThrowFlag === void 0) { legacyOutputDidListenersThrowFlag = { value: false }; } var clearTargets = false; /** * 1. Set event's dispatch flag. */ event._dispatchFlag = true; /** * 2. Let targetOverride be target, if legacy target override flag is not * given, and target's associated Document otherwise. * * _Note:_ legacy target override flag is only used by HTML and only when * target is a Window object. */ var targetOverride = target; if (legacyTargetOverrideFlag) { var doc = target._associatedDocument; if (util_1.Guard.isDocumentNode(doc)) { targetOverride = doc; } } /** * 3. Let activationTarget be null. * 4. Let relatedTarget be the result of retargeting event's relatedTarget * against target. * 5. If target is not relatedTarget or target is event's relatedTarget, * then: */ var activationTarget = null; var relatedTarget = TreeAlgorithm_1.tree_retarget(event._relatedTarget, target); if (target !== relatedTarget || target === event._relatedTarget) { /** * 5.1. Let touchTargets be a new list. * 5.2. For each touchTarget of event's touch target list, append the * result of retargeting touchTarget against target to touchTargets. * 5.3. Append to an event path with event, target, targetOverride, * relatedTarget, touchTargets, and false. * 5.4. Let isActivationEvent be true, if event is a MouseEvent object * and event's type attribute is "click", and false otherwise. * 5.5. If isActivationEvent is true and target has activation behavior, * then set activationTarget to target. * 5.6. Let slotable be target, if target is a slotable and is assigned, * and null otherwise. * 5.7. Let slot-in-closed-tree be false. * 5.8. Let parent be the result of invoking target's get the parent with * event. */ var touchTargets = []; try { for (var _c = __values(event._touchTargetList), _d = _c.next(); !_d.done; _d = _c.next()) { var touchTarget = _d.value; touchTargets.push(TreeAlgorithm_1.tree_retarget(touchTarget, target)); } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_d && !_d.done && (_a = _c.return)) _a.call(_c); } finally { if (e_1) throw e_1.error; } } event_appendToAnEventPath(event, target, targetOverride, relatedTarget, touchTargets, false); var isActivationEvent = (util_1.Guard.isMouseEvent(event) && event._type === "click"); if (isActivationEvent && target._activationBehavior !== undefined) { activationTarget = target; } var slotable = (util_1.Guard.isSlotable(target) && ShadowTreeAlgorithm_1.shadowTree_isAssigned(target)) ? target : null; var slotInClosedTree = false; var parent = target._getTheParent(event); /** * 5.9. While parent is non-null: */ while (parent !== null && util_1.Guard.isNode(parent)) { /** * 5.9.1 If slotable is non-null: * 5.9.1.1. Assert: parent is a slot. * 5.9.1.2. Set slotable to null. * 5.9.1.3. If parent's root is a shadow root whose mode is "closed", * then set slot-in-closed-tree to true. */ if (slotable !== null) { if (!util_1.Guard.isSlot(parent)) { throw new Error("Parent node of a slotable should be a slot."); } slotable = null; var root = TreeAlgorithm_1.tree_rootNode(parent, true); if (util_1.Guard.isShadowRoot(root) && root._mode === "closed") { slotInClosedTree = true; } } /** * 5.9.2 If parent is a slotable and is assigned, then set slotable to * parent. * 5.9.3. Let relatedTarget be the result of retargeting event's * relatedTarget against parent. * 5.9.4. Let touchTargets be a new list. * 5.9.4. For each touchTarget of event's touch target list, append the * result of retargeting touchTarget against parent to touchTargets. */ if (util_1.Guard.isSlotable(parent) && ShadowTreeAlgorithm_1.shadowTree_isAssigned(parent)) { slotable = parent; } relatedTarget = TreeAlgorithm_1.tree_retarget(event._relatedTarget, parent); touchTargets = []; try { for (var _e = (e_2 = void 0, __values(event._touchTargetList)), _f = _e.next(); !_f.done; _f = _e.next()) { var touchTarget = _f.value; touchTargets.push(TreeAlgorithm_1.tree_retarget(touchTarget, parent)); } } catch (e_2_1) { e_2 = { error: e_2_1 }; } finally { try { if (_f && !_f.done && (_b = _e.return)) _b.call(_e); } finally { if (e_2) throw e_2.error; } } /** * 5.9.6. If parent is a Window object, or parent is a node and target's * root is a shadow-including inclusive ancestor of parent, then: */ if (util_1.Guard.isWindow(parent) || (util_1.Guard.isNode(parent) && util_1.Guard.isNode(target) && TreeAlgorithm_1.tree_isAncestorOf(TreeAlgorithm_1.tree_rootNode(target, true), parent, true, true))) { /** * 5.9.6.1. If isActivationEvent is true, event's bubbles attribute * is true, activationTarget is null, and parent has activation * behavior, then set activationTarget to parent. * 5.9.6.2. Append to an event path with event, parent, null, * relatedTarget, touchTargets, and slot-in-closed-tree. */ if (isActivationEvent && event._bubbles && activationTarget === null && parent._activationBehavior) { activationTarget = parent; } event_appendToAnEventPath(event, parent, null, relatedTarget, touchTargets, slotInClosedTree); } else if (parent === relatedTarget) { /** * 5.9.7. Otherwise, if parent is relatedTarget, * then set parent to null. */ parent = null; } else { /** * 5.9.8. Otherwise, set target to parent and then: * 5.9.8.1. If isActivationEvent is true, activationTarget is null, * and target has activation behavior, then set activationTarget * to target. * 5.9.8.2. Append to an event path with event, parent, target, * relatedTarget, touchTargets, and slot-in-closed-tree. */ target = parent; if (isActivationEvent && activationTarget === null && target._activationBehavior) { activationTarget = target; } event_appendToAnEventPath(event, parent, target, relatedTarget, touchTargets, slotInClosedTree); } /** * 5.9.9. If parent is non-null, then set parent to the result of * invoking parent's get the parent with event. * 5.9.10. Set slot-in-closed-tree to false. */ if (parent !== null) { parent = parent._getTheParent(event); } slotInClosedTree = false; } /** * 5.10. Let clearTargetsStruct be the last struct in event's path whose * shadow-adjusted target is non-null. */ var clearTargetsStruct = null; var path = event._path; for (var i = path.length - 1; i >= 0; i--) { var struct = path[i]; if (struct.shadowAdjustedTarget !== null) { clearTargetsStruct = struct; break; } } /** * 5.11. Let clearTargets be true if clearTargetsStruct's shadow-adjusted * target, clearTargetsStruct's relatedTarget, or an EventTarget object * in clearTargetsStruct's touch target list is a node and its root is * a shadow root, and false otherwise. */ if (clearTargetsStruct !== null) { if (util_1.Guard.isNode(clearTargetsStruct.shadowAdjustedTarget) && util_1.Guard.isShadowRoot(TreeAlgorithm_1.tree_rootNode(clearTargetsStruct.shadowAdjustedTarget, true))) { clearTargets = true; } else if (util_1.Guard.isNode(clearTargetsStruct.relatedTarget) && util_1.Guard.isShadowRoot(TreeAlgorithm_1.tree_rootNode(clearTargetsStruct.relatedTarget, true))) { clearTargets = true; } else { for (var j = 0; j < clearTargetsStruct.touchTargetList.length; j++) { var struct = clearTargetsStruct.touchTargetList[j]; if (util_1.Guard.isNode(struct) && util_1.Guard.isShadowRoot(TreeAlgorithm_1.tree_rootNode(struct, true))) { clearTargets = true; break; } } } } /** * 5.12. If activationTarget is non-null and activationTarget has * legacy-pre-activation behavior, then run activationTarget's * legacy-pre-activation behavior. */ if (activationTarget !== null && activationTarget._legacyPreActivationBehavior !== undefined) { activationTarget._legacyPreActivationBehavior(event); } /** * 5.13. For each struct in event's path, in reverse order: */ for (var i = path.length - 1; i >= 0; i--) { var struct = path[i]; /** * 5.13.1. If struct's shadow-adjusted target is non-null, then set * event's eventPhase attribute to AT_TARGET. * 5.13.2. Otherwise, set event's eventPhase attribute to * CAPTURING_PHASE. * 5.13.3. Invoke with struct, event, "capturing", and * legacyOutputDidListenersThrowFlag if given. */ if (struct.shadowAdjustedTarget !== null) { event._eventPhase = interfaces_1.EventPhase.AtTarget; } else { event._eventPhase = interfaces_1.EventPhase.Capturing; } event_invoke(struct, event, "capturing", legacyOutputDidListenersThrowFlag); } /** * 5.14. For each struct in event's path */ for (var i = 0; i < path.length; i++) { var struct = path[i]; /** * 5.14.1. If struct's shadow-adjusted target is non-null, then set * event's eventPhase attribute to AT_TARGET. * 5.14.2. Otherwise: * 5.14.2.1. If event's bubbles attribute is false, then continue. * 5.14.2.2. Set event's eventPhase attribute to BUBBLING_PHASE. * 5.14.3. Invoke with struct, event, "bubbling", and * legacyOutputDidListenersThrowFlag if given. */ if (struct.shadowAdjustedTarget !== null) { event._eventPhase = interfaces_1.EventPhase.AtTarget; } else { if (!event._bubbles) continue; event._eventPhase = interfaces_1.EventPhase.Bubbling; } event_invoke(struct, event, "bubbling", legacyOutputDidListenersThrowFlag); } } /** * 6. Set event's eventPhase attribute to NONE. * 7. Set event's currentTarget attribute to null. * 8. Set event's path to the empty list. * 9. Unset event's dispatch flag, stop propagation flag, and stop * immediate propagation flag. */ event._eventPhase = interfaces_1.EventPhase.None; event._currentTarget = null; event._path = []; event._dispatchFlag = false; event._stopPropagationFlag = false; event._stopImmediatePropagationFlag = false; /** * 10. If clearTargets, then: * 10.1. Set event's target to null. * 10.2. Set event's relatedTarget to null. * 10.3. Set event's touch target list to the empty list. */ if (clearTargets) { event._target = null; event._relatedTarget = null; event._touchTargetList = []; } /** * 11. If activationTarget is non-null, then: * 11.1. If event's canceled flag is unset, then run activationTarget's * activation behavior with event. * 11.2. Otherwise, if activationTarget has legacy-canceled-activation * behavior, then run activationTarget's legacy-canceled-activation * behavior. */ if (activationTarget !== null) { if (!event._canceledFlag && activationTarget._activationBehavior !== undefined) { activationTarget._activationBehavior(event); } else if (activationTarget._legacyCanceledActivationBehavior !== undefined) { activationTarget._legacyCanceledActivationBehavior(event); } } /** * 12. Return false if event's canceled flag is set, and true otherwise. */ return !event._canceledFlag; } exports.event_dispatch = event_dispatch; /** * Appends a new struct to an event's path. * * @param event - an event * @param invocationTarget - the target of the invocation * @param shadowAdjustedTarget - shadow-root adjusted event target * @param relatedTarget - related event target * @param touchTargets - a list of touch targets * @param slotInClosedTree - if the target's parent is a closed shadow root */ function event_appendToAnEventPath(event, invocationTarget, shadowAdjustedTarget, relatedTarget, touchTargets, slotInClosedTree) { /** * 1. Let invocationTargetInShadowTree be false. * 2. If invocationTarget is a node and its root is a shadow root, then * set invocationTargetInShadowTree to true. */ var invocationTargetInShadowTree = false; if (util_1.Guard.isNode(invocationTarget) && util_1.Guard.isShadowRoot(TreeAlgorithm_1.tree_rootNode(invocationTarget))) { invocationTargetInShadowTree = true; } /** * 3. Let root-of-closed-tree be false. * 4. If invocationTarget is a shadow root whose mode is "closed", then * set root-of-closed-tree to true. */ var rootOfClosedTree = false; if (util_1.Guard.isShadowRoot(invocationTarget) && invocationTarget._mode === "closed") { rootOfClosedTree = true; } /** * 5. Append a new struct to event's path whose invocation target is * invocationTarget, invocation-target-in-shadow-tree is * invocationTargetInShadowTree, shadow-adjusted target is * shadowAdjustedTarget, relatedTarget is relatedTarget, * touch target list is touchTargets, root-of-closed-tree is * root-of-closed-tree, and slot-in-closed-tree is slot-in-closed-tree. */ event._path.push({ invocationTarget: invocationTarget, invocationTargetInShadowTree: invocationTargetInShadowTree, shadowAdjustedTarget: shadowAdjustedTarget, relatedTarget: relatedTarget, touchTargetList: touchTargets, rootOfClosedTree: rootOfClosedTree, slotInClosedTree: slotInClosedTree }); } exports.event_appendToAnEventPath = event_appendToAnEventPath; /** * Invokes an event. * * @param struct - a struct defining event's path * @param event - the event to invoke * @param phase - event phase * @param legacyOutputDidListenersThrowFlag - legacy output flag that returns * whether the event listener's callback threw an exception */ function event_invoke(struct, event, phase, legacyOutputDidListenersThrowFlag) { if (legacyOutputDidListenersThrowFlag === void 0) { legacyOutputDidListenersThrowFlag = { value: false }; } /** * 1. Set event's target to the shadow-adjusted target of the last struct * in event's path, that is either struct or preceding struct, whose * shadow-adjusted target is non-null. */ var path = event._path; var index = -1; for (var i = 0; i < path.length; i++) { if (path[i] === struct) { index = i; break; } } if (index !== -1) { var item = path[index]; if (item.shadowAdjustedTarget !== null) { event._target = item.shadowAdjustedTarget; } else if (index > 0) { item = path[index - 1]; if (item.shadowAdjustedTarget !== null) { event._target = item.shadowAdjustedTarget; } } } /** * 2. Set event's relatedTarget to struct's relatedTarget. * 3. Set event's touch target list to struct's touch target list. * 4. If event's stop propagation flag is set, then return. * 5. Initialize event's currentTarget attribute to struct's invocation * target. * 6. Let listeners be a clone of event's currentTarget attribute value's * event listener list. * * _Note:_ This avoids event listeners added after this point from being * run. Note that removal still has an effect due to the removed field. */ event._relatedTarget = struct.relatedTarget; event._touchTargetList = struct.touchTargetList; if (event._stopPropagationFlag) return; event._currentTarget = struct.invocationTarget; var currentTarget = event._currentTarget; var targetListeners = currentTarget._eventListenerList; var listeners = new (Array.bind.apply(Array, __spread([void 0], targetListeners)))(); /** * 7. Let found be the result of running inner invoke with event, listeners, * phase, and legacyOutputDidListenersThrowFlag if given. */ var found = event_innerInvoke(event, listeners, phase, struct, legacyOutputDidListenersThrowFlag); /** * 8. If found is false and event's isTrusted attribute is true, then: */ if (!found && event._isTrusted) { /** * 8.1. Let originalEventType be event's type attribute value. * 8.2. If event's type attribute value is a match for any of the strings * in the first column in the following table, set event's type attribute * value to the string in the second column on the same row as the matching * string, and return otherwise. * * Event type | Legacy event type * ------------------------------------------------- * "animationend" | "webkitAnimationEnd" * "animationiteration" | "webkitAnimationIteration" * "animationstart" | "webkitAnimationStart" * "transitionend" | "webkitTransitionEnd" */ var originalEventType = event._type; if (originalEventType === "animationend") { event._type = "webkitAnimationEnd"; } else if (originalEventType === "animationiteration") { event._type = "webkitAnimationIteration"; } else if (originalEventType === "animationstart") { event._type = "webkitAnimationStart"; } else if (originalEventType === "transitionend") { event._type = "webkitTransitionEnd"; } /** * 8.3. Inner invoke with event, listeners, phase, and * legacyOutputDidListenersThrowFlag if given. * 8.4. Set event's type attribute value to originalEventType. */ event_innerInvoke(event, listeners, phase, struct, legacyOutputDidListenersThrowFlag); event._type = originalEventType; } } exports.event_invoke = event_invoke; /** * Invokes an event. * * @param event - the event to invoke * @param listeners - event listeners * @param phase - event phase * @param struct - a struct defining event's path * @param legacyOutputDidListenersThrowFlag - legacy output flag that returns * whether the event listener's callback threw an exception */ function event_innerInvoke(event, listeners, phase, struct, legacyOutputDidListenersThrowFlag) { if (legacyOutputDidListenersThrowFlag === void 0) { legacyOutputDidListenersThrowFlag = { value: false }; } /** * 1. Let found be false. * 2. For each listener in listeners, whose removed is false: */ var found = false; for (var i = 0; i < listeners.length; i++) { var listener = listeners[i]; if (!listener.removed) { /** * 2.1. If event's type attribute value is not listener's type, then * continue. * 2.2. Set found to true. * 2.3. If phase is "capturing" and listener's capture is false, then * continue. * 2.4. If phase is "bubbling" and listener's capture is true, then * continue. */ if (event._type !== listener.type) continue; found = true; if (phase === "capturing" && !listener.capture) continue; if (phase === "bubbling" && listener.capture) continue; /** * 2.5. If listener's once is true, then remove listener from event's * currentTarget attribute value's event listener list. */ if (listener.once && event._currentTarget !== null) { var impl = event._currentTarget; var index = -1; for (var i_1 = 0; i_1 < impl._eventListenerList.length; i_1++) { if (impl._eventListenerList[i_1] === listener) { index = i_1; break; } } if (index !== -1) { impl._eventListenerList.splice(index, 1); } } /** * TODO: Implement realms * * 2.6. Let global be listener callback's associated Realm's global * object. */ var globalObject = undefined; /** * 2.7. Let currentEvent be undefined. * 2.8. If global is a Window object, then: * 2.8.1. Set currentEvent to global's current event. * 2.8.2. If struct's invocation-target-in-shadow-tree is false, then * set global's current event to event. */ var currentEvent = undefined; if (util_1.Guard.isWindow(globalObject)) { currentEvent = globalObject._currentEvent; if (struct.invocationTargetInShadowTree === false) { globalObject._currentEvent = event; } } /** * 2.9. If listener's passive is true, then set event's in passive * listener flag. * 2.10. Call a user object's operation with listener's callback, * "handleEvent", « event », and event's currentTarget attribute value. */ if (listener.passive) event._inPassiveListenerFlag = true; try { listener.callback.handleEvent.call(event._currentTarget, event); } catch (err) { /** * If this throws an exception, then: * 2.10.1. Report the exception. * 2.10.2. Set legacyOutputDidListenersThrowFlag if given. * * _Note:_ The legacyOutputDidListenersThrowFlag is only used by * Indexed Database API. * TODO: Report the exception * See: https://html.spec.whatwg.org/multipage/webappapis.html#runtime-script-errors-in-documents */ legacyOutputDidListenersThrowFlag.value = true; } /** * 2.11. Unset event's in passive listener flag. */ if (listener.passive) event._inPassiveListenerFlag = false; /** * 2.12. If global is a Window object, then set global's current event * to currentEvent. */ if (util_1.Guard.isWindow(globalObject)) { globalObject._currentEvent = currentEvent; } /** * 2.13. If event's stop immediate propagation flag is set, then return * found. */ if (event._stopImmediatePropagationFlag) return found; } } /** * 3. Return found. */ return found; } exports.event_innerInvoke = event_innerInvoke; /** * Fires an event at target. * @param e - event name * @param target - event target * @param eventConstructor - an event constructor, with a description of how * IDL attributes are to be initialized * @param idlAttributes - a dictionary describing how IDL attributes are * to be initialized * @param legacyTargetOverrideFlag - legacy target override flag */ function event_fireAnEvent(e, target, eventConstructor, idlAttributes, legacyTargetOverrideFlag) { /** * 1. If eventConstructor is not given, then let eventConstructor be Event. */ if (eventConstructor === undefined) { eventConstructor = EventImpl_1.EventImpl; } /** * 2. Let event be the result of creating an event given eventConstructor, * in the relevant Realm of target. */ var event = event_createAnEvent(eventConstructor); /** * 3. Initialize event’s type attribute to e. */ event._type = e; /** * 4. Initialize any other IDL attributes of event as described in the * invocation of this algorithm. * _Note:_ This also allows for the isTrusted attribute to be set to false. */ if (idlAttributes) { for (var key in idlAttributes) { var idlObj = event; idlObj[key] = idlAttributes[key]; } } /** * 5. Return the result of dispatching event at target, with legacy target * override flag set if set. */ return event_dispatch(event, target, legacyTargetOverrideFlag); } exports.event_fireAnEvent = event_fireAnEvent; /** * Creates an event. * * @param eventInterface - the name of the event interface */ function event_createLegacyEvent(eventInterface) { /** * 1. Let constructor be null. */ var constructor = null; /** * TODO: Implement in HTML DOM * 2. If interface is an ASCII case-insensitive match for any of the strings * in the first column in the following table, then set constructor to the * interface in the second column on the same row as the matching string: * * String | Interface * -------|---------- * "beforeunloadevent" | BeforeUnloadEvent * "compositionevent" | CompositionEvent * "customevent" | CustomEvent * "devicemotionevent" | DeviceMotionEvent * "deviceorientationevent" | DeviceOrientationEvent * "dragevent" | DragEvent * "event" | Event * "events" | Event * "focusevent" | FocusEvent * "hashchangeevent" | HashChangeEvent * "htmlevents" | Event * "keyboardevent" | KeyboardEvent * "messageevent" | MessageEvent * "mouseevent" | MouseEvent * "mouseevents" | * "storageevent" | StorageEvent * "svgevents" | Event * "textevent" | CompositionEvent * "touchevent" | TouchEvent * "uievent" | UIEvent * "uievents" | UIEvent */ switch (eventInterface.toLowerCase()) { case "beforeunloadevent": break; case "compositionevent": break; case "customevent": constructor = CustomEventImpl_1.CustomEventImpl; break; case "devicemotionevent": break; case "deviceorientationevent": break; case "dragevent": break; case "event": case "events": constructor = EventImpl_1.EventImpl; break; case "focusevent": break; case "hashchangeevent": break; case "htmlevents": break; case "keyboardevent": break; case "messageevent": break; case "mouseevent": break; case "mouseevents": break; case "storageevent": break; case "svgevents": break; case "textevent": break; case "touchevent": break; case "uievent": break; case "uievents": break; } /** * 3. If constructor is null, then throw a "NotSupportedError" DOMException. */ if (constructor === null) { throw new DOMException_1.NotSupportedError("Event constructor not found for interface " + eventInterface + "."); } /** * 4. If the interface indicated by constructor is not exposed on the * relevant global object of the context object, then throw a * "NotSupportedError" DOMException. * _Note:_ Typically user agents disable support for touch events in some * configurations, in which case this clause would be triggered for the * interface TouchEvent. */ // TODO: Implement realms /** * 5. Let event be the result of creating an event given constructor. * 6. Initialize event’s type attribute to the empty string. * 7. Initialize event’s timeStamp attribute to a DOMHighResTimeStamp * representing the high resolution time from the time origin to now. * 8. Initialize event’s isTrusted attribute to false. * 9. Unset event’s initialized flag. */ var event = new constructor(""); event._type = ""; event._timeStamp = new Date().getTime(); event._isTrusted = false; event._initializedFlag = false; /** * 10. Return event. */ return event; } exports.event_createLegacyEvent = event_createLegacyEvent; /** * Getter of an event handler IDL attribute. * * @param eventTarget - event target * @param name - event name */ function event_getterEventHandlerIDLAttribute(thisObj, name) { /** * 1. Let eventTarget be the result of determining the target of an event * handler given this object and name. * 2. If eventTarget is null, then return null. * 3. Return the result of getting the current value of the event handler * given eventTarget and name. */ var eventTarget = event_determineTheTargetOfAnEventHandler(thisObj, name); if (eventTarget === null) return null; return event_getTheCurrentValueOfAnEventHandler(eventTarget, name); } exports.event_getterEventHandlerIDLAttribute = event_getterEventHandlerIDLAttribute; /** * Setter of an event handler IDL attribute. * * @param eventTarget - event target * @param name - event name * @param value - event handler */ function event_setterEventHandlerIDLAttribute(thisObj, name, value) { /** * 1. Let eventTarget be the result of determining the target of an event * handler given this object and name. * 2. If eventTarget is null, then return. * 3. If the given value is null, then deactivate an event handler given * eventTarget and name. * 4. Otherwise: * 4.1. Let handlerMap be eventTarget's event handler map. * 4.2. Let eventHandler be handlerMap[name]. * 4.3. Set eventHandler's value to the given value. * 4.4. Activate an event handler given eventTarget and name. */ var eventTarget = event_determineTheTargetOfAnEventHandler(thisObj, name); if (eventTarget === null) return; if (value === null) { event_deactivateAnEventHandler(eventTarget, name); } else { var handlerMap = eventTarget._eventHandlerMap; var eventHandler = handlerMap["onabort"]; if (eventHandler !== undefined) { eventHandler.value = value; } event_activateAnEventHandler(eventTarget, name); } } exports.event_setterEventHandlerIDLAttribute = event_setterEventHandlerIDLAttribute; /** * Determines the target of an event handler. * * @param eventTarget - event target * @param name - event name */ function event_determineTheTargetOfAnEventHandler(eventTarget, name) { // TODO: Implement in HTML DOM return null; } exports.event_determineTheTargetOfAnEventHandler = event_determineTheTargetOfAnEventHandler; /** * Gets the current value of an event handler. * * @param eventTarget - event target * @param name - event name */ function event_getTheCurrentValueOfAnEventHandler(eventTarget, name) { // TODO: Implement in HTML DOM return null; } exports.event_getTheCurrentValueOfAnEventHandler = event_getTheCurrentValueOfAnEventHandler; /** * Activates an event handler. * * @param eventTarget - event target * @param name - event name */ function event_activateAnEventHandler(eventTarget, name) { // TODO: Implement in HTML DOM } exports.event_activateAnEventHandler = event_activateAnEventHandler; /** * Deactivates an event handler. * * @param eventTarget - event target * @param name - event name */ function event_deactivateAnEventHandler(eventTarget, name) { // TODO: Implement in HTML DOM } exports.event_deactivateAnEventHandler = event_deactivateAnEventHandler; //# sourceMappingURL=EventAlgorithm.js.map /***/ }), /***/ 21312: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; Object.defineProperty(exports, "__esModule", ({ value: true })); var util_1 = __nccwpck_require__(76195); /** * Flattens the given options argument. * * @param options - options argument */ function eventTarget_flatten(options) { /** * 1. If options is a boolean, then return options. * 2. Return options’s capture. */ if (util_1.isBoolean(options)) { return options; } else { return options.capture || false; } } exports.eventTarget_flatten = eventTarget_flatten; /** * Flattens the given options argument. * * @param options - options argument */ function eventTarget_flattenMore(options) { /** * 1. Let capture be the result of flattening options. * 2. Let once and passive be false. * 3. If options is a dictionary, then set passive to options’s passive and * once to options’s once. * 4. Return capture, passive, and once. */ var capture = eventTarget_flatten(options); var once = false; var passive = false; if (!util_1.isBoolean(options)) { once = options.once || false; passive = options.passive || false; } return [capture, passive, once]; } exports.eventTarget_flattenMore = eventTarget_flattenMore; /** * Adds a new event listener. * * @param eventTarget - event target * @param listener - event listener */ function eventTarget_addEventListener(eventTarget, listener) { /** * 1. If eventTarget is a ServiceWorkerGlobalScope object, its service * worker’s script resource’s has ever been evaluated flag is set, and * listener’s type matches the type attribute value of any of the service * worker events, then report a warning to the console that this might not * give the expected results. [SERVICE-WORKERS] */ // TODO: service worker /** * 2. If listener’s callback is null, then return. */ if (listener.callback === null) return; /** * 3. If eventTarget’s event listener list does not contain an event listener * whose type is listener’s type, callback is listener’s callback, and capture * is listener’s capture, then append listener to eventTarget’s event listener * list. */ for (var i = 0; i < eventTarget._eventListenerList.length; i++) { var entry = eventTarget._eventListenerList[i]; if (entry.type === listener.type && entry.callback.handleEvent === listener.callback.handleEvent && entry.capture === listener.capture) { return; } } eventTarget._eventListenerList.push(listener); } exports.eventTarget_addEventListener = eventTarget_addEventListener; /** * Removes an event listener. * * @param eventTarget - event target * @param listener - event listener */ function eventTarget_removeEventListener(eventTarget, listener, index) { /** * 1. If eventTarget is a ServiceWorkerGlobalScope object and its service * worker’s set of event types to handle contains type, then report a * warning to the console that this might not give the expected results. * [SERVICE-WORKERS] */ // TODO: service worker /** * 2. Set listener’s removed to true and remove listener from eventTarget’s * event listener list. */ listener.removed = true; eventTarget._eventListenerList.splice(index, 1); } exports.eventTarget_removeEventListener = eventTarget_removeEventListener; /** * Removes all event listeners. * * @param eventTarget - event target */ function eventTarget_removeAllEventListeners(eventTarget) { /** * To remove all event listeners, given an EventTarget object eventTarget, * for each listener of eventTarget’s event listener list, remove an event * listener with eventTarget and listener. */ var e_1, _a; try { for (var _b = __values(eventTarget._eventListenerList), _c = _b.next(); !_c.done; _c = _b.next()) { var e = _c.value; e.removed = true; } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_1) throw e_1.error; } } eventTarget._eventListenerList.length = 0; } exports.eventTarget_removeAllEventListeners = eventTarget_removeAllEventListeners; //# sourceMappingURL=EventTargetAlgorithm.js.map /***/ }), /***/ 45463: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; var __read = (this && this.__read) || function (o, n) { var m = typeof Symbol === "function" && o[Symbol.iterator]; if (!m) return o; var i = m.call(o), r, ar = [], e; try { while ((n === void 0 || n-- > 0) && !(r = i.next()).done) ar.push(r.value); } catch (error) { e = { error: error }; } finally { try { if (r && !r.done && (m = i["return"])) m.call(i); } finally { if (e) throw e.error; } } return ar; }; var __spread = (this && this.__spread) || function () { for (var ar = [], i = 0; i < arguments.length; i++) ar = ar.concat(__read(arguments[i])); return ar; }; Object.defineProperty(exports, "__esModule", ({ value: true })); var DOMImpl_1 = __nccwpck_require__(14177); var DOMException_1 = __nccwpck_require__(13166); var interfaces_1 = __nccwpck_require__(27305); var util_1 = __nccwpck_require__(65282); var util_2 = __nccwpck_require__(76195); var infra_1 = __nccwpck_require__(84251); var CustomElementAlgorithm_1 = __nccwpck_require__(35648); var TreeAlgorithm_1 = __nccwpck_require__(16620); var NodeIteratorAlgorithm_1 = __nccwpck_require__(3973); var ShadowTreeAlgorithm_1 = __nccwpck_require__(68733); var MutationObserverAlgorithm_1 = __nccwpck_require__(78157); var DOMAlgorithm_1 = __nccwpck_require__(9628); var DocumentAlgorithm_1 = __nccwpck_require__(12793); /** * Ensures pre-insertion validity of a node into a parent before a * child. * * @param node - node to insert * @param parent - parent node to receive node * @param child - child node to insert node before */ function mutation_ensurePreInsertionValidity(node, parent, child) { var e_1, _a, e_2, _b, e_3, _c, e_4, _d; var parentNodeType = parent._nodeType; var nodeNodeType = node._nodeType; var childNodeType = child ? child._nodeType : null; /** * 1. If parent is not a Document, DocumentFragment, or Element node, * throw a "HierarchyRequestError" DOMException. */ if (parentNodeType !== interfaces_1.NodeType.Document && parentNodeType !== interfaces_1.NodeType.DocumentFragment && parentNodeType !== interfaces_1.NodeType.Element) throw new DOMException_1.HierarchyRequestError("Only document, document fragment and element nodes can contain child nodes. Parent node is " + parent.nodeName + "."); /** * 2. If node is a host-including inclusive ancestor of parent, throw a * "HierarchyRequestError" DOMException. */ if (TreeAlgorithm_1.tree_isHostIncludingAncestorOf(parent, node, true)) throw new DOMException_1.HierarchyRequestError("The node to be inserted cannot be an inclusive ancestor of parent node. Node is " + node.nodeName + ", parent node is " + parent.nodeName + "."); /** * 3. If child is not null and its parent is not parent, then throw a * "NotFoundError" DOMException. */ if (child !== null && child._parent !== parent) throw new DOMException_1.NotFoundError("The reference child node cannot be found under parent node. Child node is " + child.nodeName + ", parent node is " + parent.nodeName + "."); /** * 4. If node is not a DocumentFragment, DocumentType, Element, Text, * ProcessingInstruction, or Comment node, throw a "HierarchyRequestError" * DOMException. */ if (nodeNodeType !== interfaces_1.NodeType.DocumentFragment && nodeNodeType !== interfaces_1.NodeType.DocumentType && nodeNodeType !== interfaces_1.NodeType.Element && nodeNodeType !== interfaces_1.NodeType.Text && nodeNodeType !== interfaces_1.NodeType.ProcessingInstruction && nodeNodeType !== interfaces_1.NodeType.CData && nodeNodeType !== interfaces_1.NodeType.Comment) throw new DOMException_1.HierarchyRequestError("Only document fragment, document type, element, text, processing instruction, cdata section or comment nodes can be inserted. Node is " + node.nodeName + "."); /** * 5. If either node is a Text node and parent is a document, or node is a * doctype and parent is not a document, throw a "HierarchyRequestError" * DOMException. */ if (nodeNodeType === interfaces_1.NodeType.Text && parentNodeType === interfaces_1.NodeType.Document) throw new DOMException_1.HierarchyRequestError("Cannot insert a text node as a child of a document node. Node is " + node.nodeName + "."); if (nodeNodeType === interfaces_1.NodeType.DocumentType && parentNodeType !== interfaces_1.NodeType.Document) throw new DOMException_1.HierarchyRequestError("A document type node can only be inserted under a document node. Parent node is " + parent.nodeName + "."); /** * 6. If parent is a document, and any of the statements below, switched on * node, are true, throw a "HierarchyRequestError" DOMException. * - DocumentFragment node * If node has more than one element child or has a Text node child. * Otherwise, if node has one element child and either parent has an element * child, child is a doctype, or child is not null and a doctype is * following child. * - element * parent has an element child, child is a doctype, or child is not null and * a doctype is following child. * - doctype * parent has a doctype child, child is non-null and an element is preceding * child, or child is null and parent has an element child. */ if (parentNodeType === interfaces_1.NodeType.Document) { if (nodeNodeType === interfaces_1.NodeType.DocumentFragment) { var eleCount = 0; try { for (var _e = __values(node._children), _f = _e.next(); !_f.done; _f = _e.next()) { var childNode = _f.value; if (childNode._nodeType === interfaces_1.NodeType.Element) eleCount++; else if (childNode._nodeType === interfaces_1.NodeType.Text) throw new DOMException_1.HierarchyRequestError("Cannot insert text a node as a child of a document node. Node is " + childNode.nodeName + "."); } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_f && !_f.done && (_a = _e.return)) _a.call(_e); } finally { if (e_1) throw e_1.error; } } if (eleCount > 1) { throw new DOMException_1.HierarchyRequestError("A document node can only have one document element node. Document fragment to be inserted has " + eleCount + " element nodes."); } else if (eleCount === 1) { try { for (var _g = __values(parent._children), _h = _g.next(); !_h.done; _h = _g.next()) { var ele = _h.value; if (ele._nodeType === interfaces_1.NodeType.Element) throw new DOMException_1.HierarchyRequestError("The document node already has a document element node."); } } catch (e_2_1) { e_2 = { error: e_2_1 }; } finally { try { if (_h && !_h.done && (_b = _g.return)) _b.call(_g); } finally { if (e_2) throw e_2.error; } } if (child) { if (childNodeType === interfaces_1.NodeType.DocumentType) throw new DOMException_1.HierarchyRequestError("Cannot insert an element node before a document type node."); var doctypeChild = child._nextSibling; while (doctypeChild) { if (doctypeChild._nodeType === interfaces_1.NodeType.DocumentType) throw new DOMException_1.HierarchyRequestError("Cannot insert an element node before a document type node."); doctypeChild = doctypeChild._nextSibling; } } } } else if (nodeNodeType === interfaces_1.NodeType.Element) { try { for (var _j = __values(parent._children), _k = _j.next(); !_k.done; _k = _j.next()) { var ele = _k.value; if (ele._nodeType === interfaces_1.NodeType.Element) throw new DOMException_1.HierarchyRequestError("Document already has a document element node. Node is " + node.nodeName + "."); } } catch (e_3_1) { e_3 = { error: e_3_1 }; } finally { try { if (_k && !_k.done && (_c = _j.return)) _c.call(_j); } finally { if (e_3) throw e_3.error; } } if (child) { if (childNodeType === interfaces_1.NodeType.DocumentType) throw new DOMException_1.HierarchyRequestError("Cannot insert an element node before a document type node. Node is " + node.nodeName + "."); var doctypeChild = child._nextSibling; while (doctypeChild) { if (doctypeChild._nodeType === interfaces_1.NodeType.DocumentType) throw new DOMException_1.HierarchyRequestError("Cannot insert an element node before a document type node. Node is " + node.nodeName + "."); doctypeChild = doctypeChild._nextSibling; } } } else if (nodeNodeType === interfaces_1.NodeType.DocumentType) { try { for (var _l = __values(parent._children), _m = _l.next(); !_m.done; _m = _l.next()) { var ele = _m.value; if (ele._nodeType === interfaces_1.NodeType.DocumentType) throw new DOMException_1.HierarchyRequestError("Document already has a document type node. Node is " + node.nodeName + "."); } } catch (e_4_1) { e_4 = { error: e_4_1 }; } finally { try { if (_m && !_m.done && (_d = _l.return)) _d.call(_l); } finally { if (e_4) throw e_4.error; } } if (child) { var elementChild = child._previousSibling; while (elementChild) { if (elementChild._nodeType === interfaces_1.NodeType.Element) throw new DOMException_1.HierarchyRequestError("Cannot insert a document type node before an element node. Node is " + node.nodeName + "."); elementChild = elementChild._previousSibling; } } else { var elementChild = parent._firstChild; while (elementChild) { if (elementChild._nodeType === interfaces_1.NodeType.Element) throw new DOMException_1.HierarchyRequestError("Cannot insert a document type node before an element node. Node is " + node.nodeName + "."); elementChild = elementChild._nextSibling; } } } } } exports.mutation_ensurePreInsertionValidity = mutation_ensurePreInsertionValidity; /** * Ensures pre-insertion validity of a node into a parent before a * child, then adopts the node to the tree and inserts it. * * @param node - node to insert * @param parent - parent node to receive node * @param child - child node to insert node before */ function mutation_preInsert(node, parent, child) { /** * 1. Ensure pre-insertion validity of node into parent before child. * 2. Let reference child be child. * 3. If reference child is node, set it to node’s next sibling. * 4. Adopt node into parent’s node document. * 5. Insert node into parent before reference child. * 6. Return node. */ mutation_ensurePreInsertionValidity(node, parent, child); var referenceChild = child; if (referenceChild === node) referenceChild = node._nextSibling; DocumentAlgorithm_1.document_adopt(node, parent._nodeDocument); mutation_insert(node, parent, referenceChild); return node; } exports.mutation_preInsert = mutation_preInsert; /** * Inserts a node into a parent node before the given child node. * * @param node - node to insert * @param parent - parent node to receive node * @param child - child node to insert node before * @param suppressObservers - whether to notify observers */ function mutation_insert(node, parent, child, suppressObservers) { var e_5, _a; // Optimized common case if (child === null && node._nodeType !== interfaces_1.NodeType.DocumentFragment) { mutation_insert_single(node, parent, suppressObservers); return; } /** * 1. Let count be the number of children of node if it is a * DocumentFragment node, and one otherwise. */ var count = (node._nodeType === interfaces_1.NodeType.DocumentFragment ? node._children.size : 1); /** * 2. If child is non-null, then: */ if (child !== null) { /** * 2.1. For each live range whose start node is parent and start * offset is greater than child's index, increase its start * offset by count. * 2.2. For each live range whose end node is parent and end * offset is greater than child's index, increase its end * offset by count. */ if (DOMImpl_1.dom.rangeList.size !== 0) { var index_1 = TreeAlgorithm_1.tree_index(child); try { for (var _b = __values(DOMImpl_1.dom.rangeList), _c = _b.next(); !_c.done; _c = _b.next()) { var range = _c.value; if (range._start[0] === parent && range._start[1] > index_1) { range._start[1] += count; } if (range._end[0] === parent && range._end[1] > index_1) { range._end[1] += count; } } } catch (e_5_1) { e_5 = { error: e_5_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_5) throw e_5.error; } } } } /** * 3. Let nodes be node’s children, if node is a DocumentFragment node; * otherwise « node ». */ var nodes = node._nodeType === interfaces_1.NodeType.DocumentFragment ? new (Array.bind.apply(Array, __spread([void 0], node._children)))() : [node]; /** * 4. If node is a DocumentFragment node, remove its children with the * suppress observers flag set. */ if (node._nodeType === interfaces_1.NodeType.DocumentFragment) { while (node._firstChild) { mutation_remove(node._firstChild, node, true); } } /** * 5. If node is a DocumentFragment node, then queue a tree mutation record * for node with « », nodes, null, and null. */ if (DOMImpl_1.dom.features.mutationObservers) { if (node._nodeType === interfaces_1.NodeType.DocumentFragment) { MutationObserverAlgorithm_1.observer_queueTreeMutationRecord(node, [], nodes, null, null); } } /** * 6. Let previousSibling be child’s previous sibling or parent’s last * child if child is null. */ var previousSibling = (child ? child._previousSibling : parent._lastChild); var index = child === null ? -1 : TreeAlgorithm_1.tree_index(child); /** * 7. For each node in nodes, in tree order: */ for (var i = 0; i < nodes.length; i++) { var node_1 = nodes[i]; if (util_1.Guard.isElementNode(node_1)) { // set document element node if (util_1.Guard.isDocumentNode(parent)) { parent._documentElement = node_1; } // mark that the document has namespaces if (!node_1._nodeDocument._hasNamespaces && (node_1._namespace !== null || node_1._namespacePrefix !== null)) { node_1._nodeDocument._hasNamespaces = true; } } /** * 7.1. If child is null, then append node to parent’s children. * 7.2. Otherwise, insert node into parent’s children before child’s * index. */ node_1._parent = parent; if (child === null) { infra_1.set.append(parent._children, node_1); } else { infra_1.set.insert(parent._children, node_1, index); index++; } // assign siblings and children for quick lookups if (parent._firstChild === null) { node_1._previousSibling = null; node_1._nextSibling = null; parent._firstChild = node_1; parent._lastChild = node_1; } else { var prev = (child ? child._previousSibling : parent._lastChild); var next = (child ? child : null); node_1._previousSibling = prev; node_1._nextSibling = next; if (prev) prev._nextSibling = node_1; if (next) next._previousSibling = node_1; if (!prev) parent._firstChild = node_1; if (!next) parent._lastChild = node_1; } /** * 7.3. If parent is a shadow host and node is a slotable, then * assign a slot for node. */ if (DOMImpl_1.dom.features.slots) { if (parent._shadowRoot !== null && util_1.Guard.isSlotable(node_1)) { ShadowTreeAlgorithm_1.shadowTree_assignASlot(node_1); } } /** * 7.4. If node is a Text node, run the child text content change * steps for parent. */ if (DOMImpl_1.dom.features.steps) { if (util_1.Guard.isTextNode(node_1)) { DOMAlgorithm_1.dom_runChildTextContentChangeSteps(parent); } } /** * 7.5. If parent's root is a shadow root, and parent is a slot * whose assigned nodes is the empty list, then run signal * a slot change for parent. */ if (DOMImpl_1.dom.features.slots) { if (util_1.Guard.isShadowRoot(TreeAlgorithm_1.tree_rootNode(parent)) && util_1.Guard.isSlot(parent) && util_2.isEmpty(parent._assignedNodes)) { ShadowTreeAlgorithm_1.shadowTree_signalASlotChange(parent); } } /** * 7.6. Run assign slotables for a tree with node's root. */ if (DOMImpl_1.dom.features.slots) { ShadowTreeAlgorithm_1.shadowTree_assignSlotablesForATree(TreeAlgorithm_1.tree_rootNode(node_1)); } /** * 7.7. For each shadow-including inclusive descendant * inclusiveDescendant of node, in shadow-including tree * order: */ var inclusiveDescendant = TreeAlgorithm_1.tree_getFirstDescendantNode(node_1, true, true); while (inclusiveDescendant !== null) { /** * 7.7.1. Run the insertion steps with inclusiveDescendant. */ if (DOMImpl_1.dom.features.steps) { DOMAlgorithm_1.dom_runInsertionSteps(inclusiveDescendant); } if (DOMImpl_1.dom.features.customElements) { /** * 7.7.2. If inclusiveDescendant is connected, then: */ if (util_1.Guard.isElementNode(inclusiveDescendant) && ShadowTreeAlgorithm_1.shadowTree_isConnected(inclusiveDescendant)) { if (util_1.Guard.isCustomElementNode(inclusiveDescendant)) { /** * 7.7.2.1. If inclusiveDescendant is custom, then enqueue a custom * element callback reaction with inclusiveDescendant, callback name * "connectedCallback", and an empty argument list. */ CustomElementAlgorithm_1.customElement_enqueueACustomElementCallbackReaction(inclusiveDescendant, "connectedCallback", []); } else { /** * 7.7.2.2. Otherwise, try to upgrade inclusiveDescendant. */ CustomElementAlgorithm_1.customElement_tryToUpgrade(inclusiveDescendant); } } } inclusiveDescendant = TreeAlgorithm_1.tree_getNextDescendantNode(node_1, inclusiveDescendant, true, true); } } /** * 8. If suppress observers flag is unset, then queue a tree mutation record * for parent with nodes, « », previousSibling, and child. */ if (DOMImpl_1.dom.features.mutationObservers) { if (!suppressObservers) { MutationObserverAlgorithm_1.observer_queueTreeMutationRecord(parent, nodes, [], previousSibling, child); } } } exports.mutation_insert = mutation_insert; /** * Inserts a node into a parent node. Optimized routine for the common case where * node is not a document fragment node and it has no child nodes. * * @param node - node to insert * @param parent - parent node to receive node * @param suppressObservers - whether to notify observers */ function mutation_insert_single(node, parent, suppressObservers) { /** * 1. Let count be the number of children of node if it is a * DocumentFragment node, and one otherwise. * 2. If child is non-null, then: * 2.1. For each live range whose start node is parent and start * offset is greater than child's index, increase its start * offset by count. * 2.2. For each live range whose end node is parent and end * offset is greater than child's index, increase its end * offset by count. * 3. Let nodes be node’s children, if node is a DocumentFragment node; * otherwise « node ». * 4. If node is a DocumentFragment node, remove its children with the * suppress observers flag set. * 5. If node is a DocumentFragment node, then queue a tree mutation record * for node with « », nodes, null, and null. */ /** * 6. Let previousSibling be child’s previous sibling or parent’s last * child if child is null. */ var previousSibling = parent._lastChild; // set document element node if (util_1.Guard.isElementNode(node)) { // set document element node if (util_1.Guard.isDocumentNode(parent)) { parent._documentElement = node; } // mark that the document has namespaces if (!node._nodeDocument._hasNamespaces && (node._namespace !== null || node._namespacePrefix !== null)) { node._nodeDocument._hasNamespaces = true; } } /** * 7. For each node in nodes, in tree order: * 7.1. If child is null, then append node to parent’s children. * 7.2. Otherwise, insert node into parent’s children before child’s * index. */ node._parent = parent; parent._children.add(node); // assign siblings and children for quick lookups if (parent._firstChild === null) { node._previousSibling = null; node._nextSibling = null; parent._firstChild = node; parent._lastChild = node; } else { var prev = parent._lastChild; node._previousSibling = prev; node._nextSibling = null; if (prev) prev._nextSibling = node; if (!prev) parent._firstChild = node; parent._lastChild = node; } /** * 7.3. If parent is a shadow host and node is a slotable, then * assign a slot for node. */ if (DOMImpl_1.dom.features.slots) { if (parent._shadowRoot !== null && util_1.Guard.isSlotable(node)) { ShadowTreeAlgorithm_1.shadowTree_assignASlot(node); } } /** * 7.4. If node is a Text node, run the child text content change * steps for parent. */ if (DOMImpl_1.dom.features.steps) { if (util_1.Guard.isTextNode(node)) { DOMAlgorithm_1.dom_runChildTextContentChangeSteps(parent); } } /** * 7.5. If parent's root is a shadow root, and parent is a slot * whose assigned nodes is the empty list, then run signal * a slot change for parent. */ if (DOMImpl_1.dom.features.slots) { if (util_1.Guard.isShadowRoot(TreeAlgorithm_1.tree_rootNode(parent)) && util_1.Guard.isSlot(parent) && util_2.isEmpty(parent._assignedNodes)) { ShadowTreeAlgorithm_1.shadowTree_signalASlotChange(parent); } } /** * 7.6. Run assign slotables for a tree with node's root. */ if (DOMImpl_1.dom.features.slots) { ShadowTreeAlgorithm_1.shadowTree_assignSlotablesForATree(TreeAlgorithm_1.tree_rootNode(node)); } /** * 7.7. For each shadow-including inclusive descendant * inclusiveDescendant of node, in shadow-including tree * order: * 7.7.1. Run the insertion steps with inclusiveDescendant. */ if (DOMImpl_1.dom.features.steps) { DOMAlgorithm_1.dom_runInsertionSteps(node); } if (DOMImpl_1.dom.features.customElements) { /** * 7.7.2. If inclusiveDescendant is connected, then: */ if (util_1.Guard.isElementNode(node) && ShadowTreeAlgorithm_1.shadowTree_isConnected(node)) { if (util_1.Guard.isCustomElementNode(node)) { /** * 7.7.2.1. If inclusiveDescendant is custom, then enqueue a custom * element callback reaction with inclusiveDescendant, callback name * "connectedCallback", and an empty argument list. */ CustomElementAlgorithm_1.customElement_enqueueACustomElementCallbackReaction(node, "connectedCallback", []); } else { /** * 7.7.2.2. Otherwise, try to upgrade inclusiveDescendant. */ CustomElementAlgorithm_1.customElement_tryToUpgrade(node); } } } /** * 8. If suppress observers flag is unset, then queue a tree mutation record * for parent with nodes, « », previousSibling, and child. */ if (DOMImpl_1.dom.features.mutationObservers) { if (!suppressObservers) { MutationObserverAlgorithm_1.observer_queueTreeMutationRecord(parent, [node], [], previousSibling, null); } } } /** * Appends a node to the children of a parent node. * * @param node - a node * @param parent - the parent to receive node */ function mutation_append(node, parent) { /** * To append a node to a parent, pre-insert node into parent before null. */ return mutation_preInsert(node, parent, null); } exports.mutation_append = mutation_append; /** * Replaces a node with another node. * * @param child - child node to remove * @param node - node to insert * @param parent - parent node to receive node */ function mutation_replace(child, node, parent) { var e_6, _a, e_7, _b, e_8, _c, e_9, _d; /** * 1. If parent is not a Document, DocumentFragment, or Element node, * throw a "HierarchyRequestError" DOMException. */ if (parent._nodeType !== interfaces_1.NodeType.Document && parent._nodeType !== interfaces_1.NodeType.DocumentFragment && parent._nodeType !== interfaces_1.NodeType.Element) throw new DOMException_1.HierarchyRequestError("Only document, document fragment and element nodes can contain child nodes. Parent node is " + parent.nodeName + "."); /** * 2. If node is a host-including inclusive ancestor of parent, throw a * "HierarchyRequestError" DOMException. */ if (TreeAlgorithm_1.tree_isHostIncludingAncestorOf(parent, node, true)) throw new DOMException_1.HierarchyRequestError("The node to be inserted cannot be an ancestor of parent node. Node is " + node.nodeName + ", parent node is " + parent.nodeName + "."); /** * 3. If child’s parent is not parent, then throw a "NotFoundError" * DOMException. */ if (child._parent !== parent) throw new DOMException_1.NotFoundError("The reference child node cannot be found under parent node. Child node is " + child.nodeName + ", parent node is " + parent.nodeName + "."); /** * 4. If node is not a DocumentFragment, DocumentType, Element, Text, * ProcessingInstruction, or Comment node, throw a "HierarchyRequestError" * DOMException. */ if (node._nodeType !== interfaces_1.NodeType.DocumentFragment && node._nodeType !== interfaces_1.NodeType.DocumentType && node._nodeType !== interfaces_1.NodeType.Element && node._nodeType !== interfaces_1.NodeType.Text && node._nodeType !== interfaces_1.NodeType.ProcessingInstruction && node._nodeType !== interfaces_1.NodeType.CData && node._nodeType !== interfaces_1.NodeType.Comment) throw new DOMException_1.HierarchyRequestError("Only document fragment, document type, element, text, processing instruction, cdata section or comment nodes can be inserted. Node is " + node.nodeName + "."); /** * 5. If either node is a Text node and parent is a document, or node is a * doctype and parent is not a document, throw a "HierarchyRequestError" * DOMException. */ if (node._nodeType === interfaces_1.NodeType.Text && parent._nodeType === interfaces_1.NodeType.Document) throw new DOMException_1.HierarchyRequestError("Cannot insert a text node as a child of a document node. Node is " + node.nodeName + "."); if (node._nodeType === interfaces_1.NodeType.DocumentType && parent._nodeType !== interfaces_1.NodeType.Document) throw new DOMException_1.HierarchyRequestError("A document type node can only be inserted under a document node. Parent node is " + parent.nodeName + "."); /** * 6. If parent is a document, and any of the statements below, switched on * node, are true, throw a "HierarchyRequestError" DOMException. * - DocumentFragment node * If node has more than one element child or has a Text node child. * Otherwise, if node has one element child and either parent has an element * child that is not child or a doctype is following child. * - element * parent has an element child that is not child or a doctype is * following child. * - doctype * parent has a doctype child that is not child, or an element is * preceding child. */ if (parent._nodeType === interfaces_1.NodeType.Document) { if (node._nodeType === interfaces_1.NodeType.DocumentFragment) { var eleCount = 0; try { for (var _e = __values(node._children), _f = _e.next(); !_f.done; _f = _e.next()) { var childNode = _f.value; if (childNode._nodeType === interfaces_1.NodeType.Element) eleCount++; else if (childNode._nodeType === interfaces_1.NodeType.Text) throw new DOMException_1.HierarchyRequestError("Cannot insert text a node as a child of a document node. Node is " + childNode.nodeName + "."); } } catch (e_6_1) { e_6 = { error: e_6_1 }; } finally { try { if (_f && !_f.done && (_a = _e.return)) _a.call(_e); } finally { if (e_6) throw e_6.error; } } if (eleCount > 1) { throw new DOMException_1.HierarchyRequestError("A document node can only have one document element node. Document fragment to be inserted has " + eleCount + " element nodes."); } else if (eleCount === 1) { try { for (var _g = __values(parent._children), _h = _g.next(); !_h.done; _h = _g.next()) { var ele = _h.value; if (ele._nodeType === interfaces_1.NodeType.Element && ele !== child) throw new DOMException_1.HierarchyRequestError("The document node already has a document element node."); } } catch (e_7_1) { e_7 = { error: e_7_1 }; } finally { try { if (_h && !_h.done && (_b = _g.return)) _b.call(_g); } finally { if (e_7) throw e_7.error; } } var doctypeChild = child._nextSibling; while (doctypeChild) { if (doctypeChild._nodeType === interfaces_1.NodeType.DocumentType) throw new DOMException_1.HierarchyRequestError("Cannot insert an element node before a document type node."); doctypeChild = doctypeChild._nextSibling; } } } else if (node._nodeType === interfaces_1.NodeType.Element) { try { for (var _j = __values(parent._children), _k = _j.next(); !_k.done; _k = _j.next()) { var ele = _k.value; if (ele._nodeType === interfaces_1.NodeType.Element && ele !== child) throw new DOMException_1.HierarchyRequestError("Document already has a document element node. Node is " + node.nodeName + "."); } } catch (e_8_1) { e_8 = { error: e_8_1 }; } finally { try { if (_k && !_k.done && (_c = _j.return)) _c.call(_j); } finally { if (e_8) throw e_8.error; } } var doctypeChild = child._nextSibling; while (doctypeChild) { if (doctypeChild._nodeType === interfaces_1.NodeType.DocumentType) throw new DOMException_1.HierarchyRequestError("Cannot insert an element node before a document type node. Node is " + node.nodeName + "."); doctypeChild = doctypeChild._nextSibling; } } else if (node._nodeType === interfaces_1.NodeType.DocumentType) { try { for (var _l = __values(parent._children), _m = _l.next(); !_m.done; _m = _l.next()) { var ele = _m.value; if (ele._nodeType === interfaces_1.NodeType.DocumentType && ele !== child) throw new DOMException_1.HierarchyRequestError("Document already has a document type node. Node is " + node.nodeName + "."); } } catch (e_9_1) { e_9 = { error: e_9_1 }; } finally { try { if (_m && !_m.done && (_d = _l.return)) _d.call(_l); } finally { if (e_9) throw e_9.error; } } var elementChild = child._previousSibling; while (elementChild) { if (elementChild._nodeType === interfaces_1.NodeType.Element) throw new DOMException_1.HierarchyRequestError("Cannot insert a document type node before an element node. Node is " + node.nodeName + "."); elementChild = elementChild._previousSibling; } } } /** * 7. Let reference child be child’s next sibling. * 8. If reference child is node, set it to node’s next sibling. * 8. Let previousSibling be child’s previous sibling. */ var referenceChild = child._nextSibling; if (referenceChild === node) referenceChild = node._nextSibling; var previousSibling = child._previousSibling; /** * 10. Adopt node into parent’s node document. * 11. Let removedNodes be the empty list. */ DocumentAlgorithm_1.document_adopt(node, parent._nodeDocument); var removedNodes = []; /** * 12. If child’s parent is not null, then: */ if (child._parent !== null) { /** * 12.1. Set removedNodes to [child]. * 12.2. Remove child from its parent with the suppress observers flag * set. */ removedNodes.push(child); mutation_remove(child, child._parent, true); } /** * 13. Let nodes be node’s children if node is a DocumentFragment node; * otherwise [node]. */ var nodes = []; if (node._nodeType === interfaces_1.NodeType.DocumentFragment) { nodes = Array.from(node._children); } else { nodes.push(node); } /** * 14. Insert node into parent before reference child with the suppress * observers flag set. */ mutation_insert(node, parent, referenceChild, true); /** * 15. Queue a tree mutation record for parent with nodes, removedNodes, * previousSibling, and reference child. */ if (DOMImpl_1.dom.features.mutationObservers) { MutationObserverAlgorithm_1.observer_queueTreeMutationRecord(parent, nodes, removedNodes, previousSibling, referenceChild); } /** * 16. Return child. */ return child; } exports.mutation_replace = mutation_replace; /** * Replaces all nodes of a parent with the given node. * * @param node - node to insert * @param parent - parent node to receive node */ function mutation_replaceAll(node, parent) { var e_10, _a; /** * 1. If node is not null, adopt node into parent’s node document. */ if (node !== null) { DocumentAlgorithm_1.document_adopt(node, parent._nodeDocument); } /** * 2. Let removedNodes be parent’s children. */ var removedNodes = Array.from(parent._children); /** * 3. Let addedNodes be the empty list. * 4. If node is DocumentFragment node, then set addedNodes to node’s * children. * 5. Otherwise, if node is non-null, set addedNodes to [node]. */ var addedNodes = []; if (node && node._nodeType === interfaces_1.NodeType.DocumentFragment) { addedNodes = Array.from(node._children); } else if (node !== null) { addedNodes.push(node); } try { /** * 6. Remove all parent’s children, in tree order, with the suppress * observers flag set. */ for (var removedNodes_1 = __values(removedNodes), removedNodes_1_1 = removedNodes_1.next(); !removedNodes_1_1.done; removedNodes_1_1 = removedNodes_1.next()) { var childNode = removedNodes_1_1.value; mutation_remove(childNode, parent, true); } } catch (e_10_1) { e_10 = { error: e_10_1 }; } finally { try { if (removedNodes_1_1 && !removedNodes_1_1.done && (_a = removedNodes_1.return)) _a.call(removedNodes_1); } finally { if (e_10) throw e_10.error; } } /** * 7. If node is not null, then insert node into parent before null with the * suppress observers flag set. */ if (node !== null) { mutation_insert(node, parent, null, true); } /** * 8. Queue a tree mutation record for parent with addedNodes, removedNodes, * null, and null. */ if (DOMImpl_1.dom.features.mutationObservers) { MutationObserverAlgorithm_1.observer_queueTreeMutationRecord(parent, addedNodes, removedNodes, null, null); } } exports.mutation_replaceAll = mutation_replaceAll; /** * Ensures pre-removal validity of a child node from a parent, then * removes it. * * @param child - child node to remove * @param parent - parent node */ function mutation_preRemove(child, parent) { /** * 1. If child’s parent is not parent, then throw a "NotFoundError" * DOMException. * 2. Remove child from parent. * 3. Return child. */ if (child._parent !== parent) throw new DOMException_1.NotFoundError("The child node cannot be found under parent node. Child node is " + child.nodeName + ", parent node is " + parent.nodeName + "."); mutation_remove(child, parent); return child; } exports.mutation_preRemove = mutation_preRemove; /** * Removes a child node from its parent. * * @param node - node to remove * @param parent - parent node * @param suppressObservers - whether to notify observers */ function mutation_remove(node, parent, suppressObservers) { var e_11, _a, e_12, _b, e_13, _c, e_14, _d; if (DOMImpl_1.dom.rangeList.size !== 0) { /** * 1. Let index be node’s index. */ var index = TreeAlgorithm_1.tree_index(node); try { /** * 2. For each live range whose start node is an inclusive descendant of * node, set its start to (parent, index). * 3. For each live range whose end node is an inclusive descendant of * node, set its end to (parent, index). */ for (var _e = __values(DOMImpl_1.dom.rangeList), _f = _e.next(); !_f.done; _f = _e.next()) { var range = _f.value; if (TreeAlgorithm_1.tree_isDescendantOf(node, range._start[0], true)) { range._start = [parent, index]; } if (TreeAlgorithm_1.tree_isDescendantOf(node, range._end[0], true)) { range._end = [parent, index]; } if (range._start[0] === parent && range._start[1] > index) { range._start[1]--; } if (range._end[0] === parent && range._end[1] > index) { range._end[1]--; } } } catch (e_11_1) { e_11 = { error: e_11_1 }; } finally { try { if (_f && !_f.done && (_a = _e.return)) _a.call(_e); } finally { if (e_11) throw e_11.error; } } try { /** * 4. For each live range whose start node is parent and start offset is * greater than index, decrease its start offset by 1. * 5. For each live range whose end node is parent and end offset is greater * than index, decrease its end offset by 1. */ for (var _g = __values(DOMImpl_1.dom.rangeList), _h = _g.next(); !_h.done; _h = _g.next()) { var range = _h.value; if (range._start[0] === parent && range._start[1] > index) { range._start[1] -= 1; } if (range._end[0] === parent && range._end[1] > index) { range._end[1] -= 1; } } } catch (e_12_1) { e_12 = { error: e_12_1 }; } finally { try { if (_h && !_h.done && (_b = _g.return)) _b.call(_g); } finally { if (e_12) throw e_12.error; } } } /** * 6. For each NodeIterator object iterator whose root’s node document is * node’s node document, run the NodeIterator pre-removing steps given node * and iterator. */ if (DOMImpl_1.dom.features.steps) { try { for (var _j = __values(NodeIteratorAlgorithm_1.nodeIterator_iteratorList()), _k = _j.next(); !_k.done; _k = _j.next()) { var iterator = _k.value; if (iterator._root._nodeDocument === node._nodeDocument) { DOMAlgorithm_1.dom_runNodeIteratorPreRemovingSteps(iterator, node); } } } catch (e_13_1) { e_13 = { error: e_13_1 }; } finally { try { if (_k && !_k.done && (_c = _j.return)) _c.call(_j); } finally { if (e_13) throw e_13.error; } } } /** * 7. Let oldPreviousSibling be node’s previous sibling. * 8. Let oldNextSibling be node’s next sibling. */ var oldPreviousSibling = node._previousSibling; var oldNextSibling = node._nextSibling; // set document element node if (util_1.Guard.isDocumentNode(parent) && util_1.Guard.isElementNode(node)) { parent._documentElement = null; } /** * 9. Remove node from its parent’s children. */ node._parent = null; parent._children.delete(node); // assign siblings and children for quick lookups var prev = node._previousSibling; var next = node._nextSibling; node._previousSibling = null; node._nextSibling = null; if (prev) prev._nextSibling = next; if (next) next._previousSibling = prev; if (!prev) parent._firstChild = next; if (!next) parent._lastChild = prev; /** * 10. If node is assigned, then run assign slotables for node’s assigned * slot. */ if (DOMImpl_1.dom.features.slots) { if (util_1.Guard.isSlotable(node) && node._assignedSlot !== null && ShadowTreeAlgorithm_1.shadowTree_isAssigned(node)) { ShadowTreeAlgorithm_1.shadowTree_assignSlotables(node._assignedSlot); } } /** * 11. If parent’s root is a shadow root, and parent is a slot whose * assigned nodes is the empty list, then run signal a slot change for * parent. */ if (DOMImpl_1.dom.features.slots) { if (util_1.Guard.isShadowRoot(TreeAlgorithm_1.tree_rootNode(parent)) && util_1.Guard.isSlot(parent) && util_2.isEmpty(parent._assignedNodes)) { ShadowTreeAlgorithm_1.shadowTree_signalASlotChange(parent); } } /** * 12. If node has an inclusive descendant that is a slot, then: * 12.1. Run assign slotables for a tree with parent's root. * 12.2. Run assign slotables for a tree with node. */ if (DOMImpl_1.dom.features.slots) { var descendant_1 = TreeAlgorithm_1.tree_getFirstDescendantNode(node, true, false, function (e) { return util_1.Guard.isSlot(e); }); if (descendant_1 !== null) { ShadowTreeAlgorithm_1.shadowTree_assignSlotablesForATree(TreeAlgorithm_1.tree_rootNode(parent)); ShadowTreeAlgorithm_1.shadowTree_assignSlotablesForATree(node); } } /** * 13. Run the removing steps with node and parent. */ if (DOMImpl_1.dom.features.steps) { DOMAlgorithm_1.dom_runRemovingSteps(node, parent); } /** * 14. If node is custom, then enqueue a custom element callback * reaction with node, callback name "disconnectedCallback", * and an empty argument list. */ if (DOMImpl_1.dom.features.customElements) { if (util_1.Guard.isCustomElementNode(node)) { CustomElementAlgorithm_1.customElement_enqueueACustomElementCallbackReaction(node, "disconnectedCallback", []); } } /** * 15. For each shadow-including descendant descendant of node, * in shadow-including tree order, then: */ var descendant = TreeAlgorithm_1.tree_getFirstDescendantNode(node, false, true); while (descendant !== null) { /** * 15.1. Run the removing steps with descendant. */ if (DOMImpl_1.dom.features.steps) { DOMAlgorithm_1.dom_runRemovingSteps(descendant, node); } /** * 15.2. If descendant is custom, then enqueue a custom element * callback reaction with descendant, callback name * "disconnectedCallback", and an empty argument list. */ if (DOMImpl_1.dom.features.customElements) { if (util_1.Guard.isCustomElementNode(descendant)) { CustomElementAlgorithm_1.customElement_enqueueACustomElementCallbackReaction(descendant, "disconnectedCallback", []); } } descendant = TreeAlgorithm_1.tree_getNextDescendantNode(node, descendant, false, true); } /** * 16. For each inclusive ancestor inclusiveAncestor of parent, and * then for each registered of inclusiveAncestor's registered * observer list, if registered's options's subtree is true, * then append a new transient registered observer whose * observer is registered's observer, options is registered's * options, and source is registered to node's registered * observer list. */ if (DOMImpl_1.dom.features.mutationObservers) { var inclusiveAncestor = TreeAlgorithm_1.tree_getFirstAncestorNode(parent, true); while (inclusiveAncestor !== null) { try { for (var _l = (e_14 = void 0, __values(inclusiveAncestor._registeredObserverList)), _m = _l.next(); !_m.done; _m = _l.next()) { var registered = _m.value; if (registered.options.subtree) { node._registeredObserverList.push({ observer: registered.observer, options: registered.options, source: registered }); } } } catch (e_14_1) { e_14 = { error: e_14_1 }; } finally { try { if (_m && !_m.done && (_d = _l.return)) _d.call(_l); } finally { if (e_14) throw e_14.error; } } inclusiveAncestor = TreeAlgorithm_1.tree_getNextAncestorNode(parent, inclusiveAncestor, true); } } /** * 17. If suppress observers flag is unset, then queue a tree mutation * record for parent with « », « node », oldPreviousSibling, and * oldNextSibling. */ if (DOMImpl_1.dom.features.mutationObservers) { if (!suppressObservers) { MutationObserverAlgorithm_1.observer_queueTreeMutationRecord(parent, [], [node], oldPreviousSibling, oldNextSibling); } } /** * 18. If node is a Text node, then run the child text content change steps * for parent. */ if (DOMImpl_1.dom.features.steps) { if (util_1.Guard.isTextNode(node)) { DOMAlgorithm_1.dom_runChildTextContentChangeSteps(parent); } } } exports.mutation_remove = mutation_remove; //# sourceMappingURL=MutationAlgorithm.js.map /***/ }), /***/ 78157: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; var __read = (this && this.__read) || function (o, n) { var m = typeof Symbol === "function" && o[Symbol.iterator]; if (!m) return o; var i = m.call(o), r, ar = [], e; try { while ((n === void 0 || n-- > 0) && !(r = i.next()).done) ar.push(r.value); } catch (error) { e = { error: error }; } finally { try { if (r && !r.done && (m = i["return"])) m.call(i); } finally { if (e) throw e.error; } } return ar; }; Object.defineProperty(exports, "__esModule", ({ value: true })); var DOMImpl_1 = __nccwpck_require__(14177); var util_1 = __nccwpck_require__(65282); var infra_1 = __nccwpck_require__(84251); var CreateAlgorithm_1 = __nccwpck_require__(57339); var TreeAlgorithm_1 = __nccwpck_require__(16620); var EventAlgorithm_1 = __nccwpck_require__(28217); /** * Queues a mutation observer microtask to the surrounding agent’s mutation * observers. */ function observer_queueAMutationObserverMicrotask() { /** * 1. If the surrounding agent’s mutation observer microtask queued is true, * then return. * 2. Set the surrounding agent’s mutation observer microtask queued to true. * 3. Queue a microtask to notify mutation observers. */ var window = DOMImpl_1.dom.window; if (window._mutationObserverMicrotaskQueued) return; window._mutationObserverMicrotaskQueued = true; Promise.resolve().then(function () { observer_notifyMutationObservers(); }); } exports.observer_queueAMutationObserverMicrotask = observer_queueAMutationObserverMicrotask; /** * Notifies the surrounding agent’s mutation observers. */ function observer_notifyMutationObservers() { var e_1, _a, e_2, _b; /** * 1. Set the surrounding agent’s mutation observer microtask queued to false. * 2. Let notifySet be a clone of the surrounding agent’s mutation observers. * 3. Let signalSet be a clone of the surrounding agent’s signal slots. * 4. Empty the surrounding agent’s signal slots. */ var window = DOMImpl_1.dom.window; window._mutationObserverMicrotaskQueued = false; var notifySet = infra_1.set.clone(window._mutationObservers); var signalSet = infra_1.set.clone(window._signalSlots); infra_1.set.empty(window._signalSlots); var _loop_1 = function (mo) { /** * 5.1. Let records be a clone of mo’s record queue. * 5.2. Empty mo’s record queue. */ var records = infra_1.list.clone(mo._recordQueue); infra_1.list.empty(mo._recordQueue); /** * 5.3. For each node of mo’s node list, remove all transient registered * observers whose observer is mo from node’s registered observer list. */ for (var i = 0; i < mo._nodeList.length; i++) { var node = mo._nodeList[i]; infra_1.list.remove(node._registeredObserverList, function (observer) { return util_1.Guard.isTransientRegisteredObserver(observer) && observer.observer === mo; }); } /** * 5.4. If records is not empty, then invoke mo’s callback with « records, * mo », and mo. If this throws an exception, then report the exception. */ if (!infra_1.list.isEmpty(records)) { try { mo._callback.call(mo, records, mo); } catch (err) { // TODO: Report the exception } } }; try { /** * 5. For each mo of notifySet: */ for (var notifySet_1 = __values(notifySet), notifySet_1_1 = notifySet_1.next(); !notifySet_1_1.done; notifySet_1_1 = notifySet_1.next()) { var mo = notifySet_1_1.value; _loop_1(mo); } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (notifySet_1_1 && !notifySet_1_1.done && (_a = notifySet_1.return)) _a.call(notifySet_1); } finally { if (e_1) throw e_1.error; } } /** * 6. For each slot of signalSet, fire an event named slotchange, with its * bubbles attribute set to true, at slot. */ if (DOMImpl_1.dom.features.slots) { try { for (var signalSet_1 = __values(signalSet), signalSet_1_1 = signalSet_1.next(); !signalSet_1_1.done; signalSet_1_1 = signalSet_1.next()) { var slot = signalSet_1_1.value; EventAlgorithm_1.event_fireAnEvent("slotchange", slot, undefined, { bubbles: true }); } } catch (e_2_1) { e_2 = { error: e_2_1 }; } finally { try { if (signalSet_1_1 && !signalSet_1_1.done && (_b = signalSet_1.return)) _b.call(signalSet_1); } finally { if (e_2) throw e_2.error; } } } } exports.observer_notifyMutationObservers = observer_notifyMutationObservers; /** * Queues a mutation record of the given type for target. * * @param type - mutation record type * @param target - target node * @param name - name before mutation * @param namespace - namespace before mutation * @param oldValue - attribute value before mutation * @param addedNodes - a list od added nodes * @param removedNodes - a list of removed nodes * @param previousSibling - previous sibling of target before mutation * @param nextSibling - next sibling of target before mutation */ function observer_queueMutationRecord(type, target, name, namespace, oldValue, addedNodes, removedNodes, previousSibling, nextSibling) { var e_3, _a; /** * 1. Let interestedObservers be an empty map. * 2. Let nodes be the inclusive ancestors of target. * 3. For each node in nodes, and then for each registered of node’s * registered observer list: */ var interestedObservers = new Map(); var node = TreeAlgorithm_1.tree_getFirstAncestorNode(target, true); while (node !== null) { for (var i = 0; i < node._registeredObserverList.length; i++) { var registered = node._registeredObserverList[i]; /** * 3.1. Let options be registered’s options. * 3.2. If none of the following are true * - node is not target and options’s subtree is false * - type is "attributes" and options’s attributes is not true * - type is "attributes", options’s attributeFilter is present, and * options’s attributeFilter does not contain name or namespace is * non-null * - type is "characterData" and options’s characterData is not true * - type is "childList" and options’s childList is false */ var options = registered.options; if (node !== target && !options.subtree) continue; if (type === "attributes" && !options.attributes) continue; if (type === "attributes" && options.attributeFilter && (!options.attributeFilter.indexOf(name || '') || namespace !== null)) continue; if (type === "characterData" && !options.characterData) continue; if (type === "childList" && !options.childList) continue; /** * then: * 3.2.1. Let mo be registered’s observer. * 3.2.2. If interestedObservers[mo] does not exist, then set * interestedObservers[mo] to null. * 3.2.3. If either type is "attributes" and options’s attributeOldValue * is true, or type is "characterData" and options’s * characterDataOldValue is true, then set interestedObservers[mo] * to oldValue. */ var mo = registered.observer; if (!interestedObservers.has(mo)) { interestedObservers.set(mo, null); } if ((type === "attributes" && options.attributeOldValue) || (type === "characterData" && options.characterDataOldValue)) { interestedObservers.set(mo, oldValue); } } node = TreeAlgorithm_1.tree_getNextAncestorNode(target, node, true); } try { /** * 4. For each observer → mappedOldValue of interestedObservers: */ for (var interestedObservers_1 = __values(interestedObservers), interestedObservers_1_1 = interestedObservers_1.next(); !interestedObservers_1_1.done; interestedObservers_1_1 = interestedObservers_1.next()) { var _b = __read(interestedObservers_1_1.value, 2), observer = _b[0], mappedOldValue = _b[1]; /** * 4.1. Let record be a new MutationRecord object with its type set to * type, target set to target, attributeName set to name, * attributeNamespace set to namespace, oldValue set to mappedOldValue, * addedNodes set to addedNodes, removedNodes set to removedNodes, * previousSibling set to previousSibling, and nextSibling set to * nextSibling. * 4.2. Enqueue record to observer’s record queue. */ var record = CreateAlgorithm_1.create_mutationRecord(type, target, CreateAlgorithm_1.create_nodeListStatic(target, addedNodes), CreateAlgorithm_1.create_nodeListStatic(target, removedNodes), previousSibling, nextSibling, name, namespace, mappedOldValue); var queue = observer._recordQueue; queue.push(record); } } catch (e_3_1) { e_3 = { error: e_3_1 }; } finally { try { if (interestedObservers_1_1 && !interestedObservers_1_1.done && (_a = interestedObservers_1.return)) _a.call(interestedObservers_1); } finally { if (e_3) throw e_3.error; } } /** * 5. Queue a mutation observer microtask. */ observer_queueAMutationObserverMicrotask(); } exports.observer_queueMutationRecord = observer_queueMutationRecord; /** * Queues a tree mutation record for target. * * @param target - target node * @param addedNodes - a list od added nodes * @param removedNodes - a list of removed nodes * @param previousSibling - previous sibling of target before mutation * @param nextSibling - next sibling of target before mutation */ function observer_queueTreeMutationRecord(target, addedNodes, removedNodes, previousSibling, nextSibling) { /** * To queue a tree mutation record for target with addedNodes, removedNodes, * previousSibling, and nextSibling, queue a mutation record of "childList" * for target with null, null, null, addedNodes, removedNodes, * previousSibling, and nextSibling. */ observer_queueMutationRecord("childList", target, null, null, null, addedNodes, removedNodes, previousSibling, nextSibling); } exports.observer_queueTreeMutationRecord = observer_queueTreeMutationRecord; /** * Queues an attribute mutation record for target. * * @param target - target node * @param name - name before mutation * @param namespace - namespace before mutation * @param oldValue - attribute value before mutation */ function observer_queueAttributeMutationRecord(target, name, namespace, oldValue) { /** * To queue an attribute mutation record for target with name, namespace, * and oldValue, queue a mutation record of "attributes" for target with * name, namespace, oldValue, « », « », null, and null. */ observer_queueMutationRecord("attributes", target, name, namespace, oldValue, [], [], null, null); } exports.observer_queueAttributeMutationRecord = observer_queueAttributeMutationRecord; //# sourceMappingURL=MutationObserverAlgorithm.js.map /***/ }), /***/ 35856: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var DOMException_1 = __nccwpck_require__(13166); var infra_1 = __nccwpck_require__(84251); var XMLAlgorithm_1 = __nccwpck_require__(57030); /** * Validates the given qualified name. * * @param qualifiedName - qualified name */ function namespace_validate(qualifiedName) { /** * To validate a qualifiedName, throw an "InvalidCharacterError" * DOMException if qualifiedName does not match the Name or QName * production. */ if (!XMLAlgorithm_1.xml_isName(qualifiedName)) throw new DOMException_1.InvalidCharacterError("Invalid XML name: " + qualifiedName); if (!XMLAlgorithm_1.xml_isQName(qualifiedName)) throw new DOMException_1.InvalidCharacterError("Invalid XML qualified name: " + qualifiedName + "."); } exports.namespace_validate = namespace_validate; /** * Validates and extracts a namespace, prefix and localName from the * given namespace and qualified name. * See: https://dom.spec.whatwg.org/#validate-and-extract. * * @param namespace - namespace * @param qualifiedName - qualified name * * @returns a tuple with `namespace`, `prefix` and `localName`. */ function namespace_validateAndExtract(namespace, qualifiedName) { /** * 1. If namespace is the empty string, set it to null. * 2. Validate qualifiedName. * 3. Let prefix be null. * 4. Let localName be qualifiedName. * 5. If qualifiedName contains a ":" (U+003E), then split the string on it * and set prefix to the part before and localName to the part after. * 6. If prefix is non-null and namespace is null, then throw a * "NamespaceError" DOMException. * 7. If prefix is "xml" and namespace is not the XML namespace, then throw * a "NamespaceError" DOMException. * 8. If either qualifiedName or prefix is "xmlns" and namespace is not the * XMLNS namespace, then throw a "NamespaceError" DOMException. * 9. If namespace is the XMLNS namespace and neither qualifiedName nor * prefix is "xmlns", then throw a "NamespaceError" DOMException. * 10. Return namespace, prefix, and localName. */ if (!namespace) namespace = null; namespace_validate(qualifiedName); var parts = qualifiedName.split(':'); var prefix = (parts.length === 2 ? parts[0] : null); var localName = (parts.length === 2 ? parts[1] : qualifiedName); if (prefix && namespace === null) throw new DOMException_1.NamespaceError("Qualified name includes a prefix but the namespace is null."); if (prefix === "xml" && namespace !== infra_1.namespace.XML) throw new DOMException_1.NamespaceError("Qualified name includes the \"xml\" prefix but the namespace is not the XML namespace."); if (namespace !== infra_1.namespace.XMLNS && (prefix === "xmlns" || qualifiedName === "xmlns")) throw new DOMException_1.NamespaceError("Qualified name includes the \"xmlns\" prefix but the namespace is not the XMLNS namespace."); if (namespace === infra_1.namespace.XMLNS && (prefix !== "xmlns" && qualifiedName !== "xmlns")) throw new DOMException_1.NamespaceError("Qualified name does not include the \"xmlns\" prefix but the namespace is the XMLNS namespace."); return [namespace, prefix, localName]; } exports.namespace_validateAndExtract = namespace_validateAndExtract; /** * Extracts a prefix and localName from the given qualified name. * * @param qualifiedName - qualified name * * @returns an tuple with `prefix` and `localName`. */ function namespace_extractQName(qualifiedName) { namespace_validate(qualifiedName); var parts = qualifiedName.split(':'); var prefix = (parts.length === 2 ? parts[0] : null); var localName = (parts.length === 2 ? parts[1] : qualifiedName); return [prefix, localName]; } exports.namespace_extractQName = namespace_extractQName; //# sourceMappingURL=NamespaceAlgorithm.js.map /***/ }), /***/ 74924: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; Object.defineProperty(exports, "__esModule", ({ value: true })); var DOMImpl_1 = __nccwpck_require__(14177); var util_1 = __nccwpck_require__(65282); var infra_1 = __nccwpck_require__(84251); var CreateAlgorithm_1 = __nccwpck_require__(57339); var OrderedSetAlgorithm_1 = __nccwpck_require__(53670); var DOMAlgorithm_1 = __nccwpck_require__(9628); var MutationAlgorithm_1 = __nccwpck_require__(45463); var ElementAlgorithm_1 = __nccwpck_require__(51849); /** * Replaces the contents of the given node with a single text node. * * @param string - node contents * @param parent - a node */ function node_stringReplaceAll(str, parent) { /** * 1. Let node be null. * 2. If string is not the empty string, then set node to a new Text node * whose data is string and node document is parent’s node document. * 3. Replace all with node within parent. */ var node = null; if (str !== '') { node = CreateAlgorithm_1.create_text(parent._nodeDocument, str); } MutationAlgorithm_1.mutation_replaceAll(node, parent); } exports.node_stringReplaceAll = node_stringReplaceAll; /** * Clones a node. * * @param node - a node to clone * @param document - the document to own the cloned node * @param cloneChildrenFlag - whether to clone node's children */ function node_clone(node, document, cloneChildrenFlag) { var e_1, _a, e_2, _b; if (document === void 0) { document = null; } if (cloneChildrenFlag === void 0) { cloneChildrenFlag = false; } /** * 1. If document is not given, let document be node’s node document. */ if (document === null) document = node._nodeDocument; var copy; if (util_1.Guard.isElementNode(node)) { /** * 2. If node is an element, then: * 2.1. Let copy be the result of creating an element, given document, * node’s local name, node’s namespace, node’s namespace prefix, * and node’s is value, with the synchronous custom elements flag unset. * 2.2. For each attribute in node’s attribute list: * 2.2.1. Let copyAttribute be a clone of attribute. * 2.2.2. Append copyAttribute to copy. */ copy = ElementAlgorithm_1.element_createAnElement(document, node._localName, node._namespace, node._namespacePrefix, node._is, false); try { for (var _c = __values(node._attributeList), _d = _c.next(); !_d.done; _d = _c.next()) { var attribute = _d.value; var copyAttribute = node_clone(attribute, document); ElementAlgorithm_1.element_append(copyAttribute, copy); } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_d && !_d.done && (_a = _c.return)) _a.call(_c); } finally { if (e_1) throw e_1.error; } } } else { /** * 3. Otherwise, let copy be a node that implements the same interfaces as * node, and fulfills these additional requirements, switching on node: * - Document * Set copy’s encoding, content type, URL, origin, type, and mode, to those * of node. * - DocumentType * Set copy’s name, public ID, and system ID, to those of node. * - Attr * Set copy’s namespace, namespace prefix, local name, and value, to * those of node. * - Text * - Comment * Set copy’s data, to that of node. * - ProcessingInstruction * Set copy’s target and data to those of node. * - Any other node */ if (util_1.Guard.isDocumentNode(node)) { var doc = CreateAlgorithm_1.create_document(); doc._encoding = node._encoding; doc._contentType = node._contentType; doc._URL = node._URL; doc._origin = node._origin; doc._type = node._type; doc._mode = node._mode; copy = doc; } else if (util_1.Guard.isDocumentTypeNode(node)) { var doctype = CreateAlgorithm_1.create_documentType(document, node._name, node._publicId, node._systemId); copy = doctype; } else if (util_1.Guard.isAttrNode(node)) { var attr = CreateAlgorithm_1.create_attr(document, node.localName); attr._namespace = node._namespace; attr._namespacePrefix = node._namespacePrefix; attr._value = node._value; copy = attr; } else if (util_1.Guard.isExclusiveTextNode(node)) { copy = CreateAlgorithm_1.create_text(document, node._data); } else if (util_1.Guard.isCDATASectionNode(node)) { copy = CreateAlgorithm_1.create_cdataSection(document, node._data); } else if (util_1.Guard.isCommentNode(node)) { copy = CreateAlgorithm_1.create_comment(document, node._data); } else if (util_1.Guard.isProcessingInstructionNode(node)) { copy = CreateAlgorithm_1.create_processingInstruction(document, node._target, node._data); } else if (util_1.Guard.isDocumentFragmentNode(node)) { copy = CreateAlgorithm_1.create_documentFragment(document); } else { copy = Object.create(node); } } /** * 4. Set copy’s node document and document to copy, if copy is a document, * and set copy’s node document to document otherwise. */ if (util_1.Guard.isDocumentNode(copy)) { copy._nodeDocument = copy; document = copy; } else { copy._nodeDocument = document; } /** * 5. Run any cloning steps defined for node in other applicable * specifications and pass copy, node, document and the clone children flag * if set, as parameters. */ if (DOMImpl_1.dom.features.steps) { DOMAlgorithm_1.dom_runCloningSteps(copy, node, document, cloneChildrenFlag); } /** * 6. If the clone children flag is set, clone all the children of node and * append them to copy, with document as specified and the clone children * flag being set. */ if (cloneChildrenFlag) { try { for (var _e = __values(node._children), _f = _e.next(); !_f.done; _f = _e.next()) { var child = _f.value; var childCopy = node_clone(child, document, true); MutationAlgorithm_1.mutation_append(childCopy, copy); } } catch (e_2_1) { e_2 = { error: e_2_1 }; } finally { try { if (_f && !_f.done && (_b = _e.return)) _b.call(_e); } finally { if (e_2) throw e_2.error; } } } /** * 7. Return copy. */ return copy; } exports.node_clone = node_clone; /** * Determines if two nodes can be considered equal. * * @param a - node to compare * @param b - node to compare */ function node_equals(a, b) { var e_3, _a, e_4, _b; /** * 1. A and B’s nodeType attribute value is identical. */ if (a._nodeType !== b._nodeType) return false; /** * 2. The following are also equal, depending on A: * - DocumentType * Its name, public ID, and system ID. * - Element * Its namespace, namespace prefix, local name, and its attribute list’s size. * - Attr * Its namespace, local name, and value. * - ProcessingInstruction * Its target and data. * - Text * - Comment * Its data. */ if (util_1.Guard.isDocumentTypeNode(a) && util_1.Guard.isDocumentTypeNode(b)) { if (a._name !== b._name || a._publicId !== b._publicId || a._systemId !== b._systemId) return false; } else if (util_1.Guard.isElementNode(a) && util_1.Guard.isElementNode(b)) { if (a._namespace !== b._namespace || a._namespacePrefix !== b._namespacePrefix || a._localName !== b._localName || a._attributeList.length !== b._attributeList.length) return false; } else if (util_1.Guard.isAttrNode(a) && util_1.Guard.isAttrNode(b)) { if (a._namespace !== b._namespace || a._localName !== b._localName || a._value !== b._value) return false; } else if (util_1.Guard.isProcessingInstructionNode(a) && util_1.Guard.isProcessingInstructionNode(b)) { if (a._target !== b._target || a._data !== b._data) return false; } else if (util_1.Guard.isCharacterDataNode(a) && util_1.Guard.isCharacterDataNode(b)) { if (a._data !== b._data) return false; } /** * 3. If A is an element, each attribute in its attribute list has an attribute * that equals an attribute in B’s attribute list. */ if (util_1.Guard.isElementNode(a) && util_1.Guard.isElementNode(b)) { var attrMap = {}; try { for (var _c = __values(a._attributeList), _d = _c.next(); !_d.done; _d = _c.next()) { var attrA = _d.value; attrMap[attrA._localName] = attrA; } } catch (e_3_1) { e_3 = { error: e_3_1 }; } finally { try { if (_d && !_d.done && (_a = _c.return)) _a.call(_c); } finally { if (e_3) throw e_3.error; } } try { for (var _e = __values(b._attributeList), _f = _e.next(); !_f.done; _f = _e.next()) { var attrB = _f.value; var attrA = attrMap[attrB._localName]; if (!attrA) return false; if (!node_equals(attrA, attrB)) return false; } } catch (e_4_1) { e_4 = { error: e_4_1 }; } finally { try { if (_f && !_f.done && (_b = _e.return)) _b.call(_e); } finally { if (e_4) throw e_4.error; } } } /** * 4. A and B have the same number of children. * 5. Each child of A equals the child of B at the identical index. */ if (a._children.size !== b._children.size) return false; var itA = a._children[Symbol.iterator](); var itB = b._children[Symbol.iterator](); var resultA = itA.next(); var resultB = itB.next(); while (!resultA.done && !resultB.done) { var child1 = resultA.value; var child2 = resultB.value; if (!node_equals(child1, child2)) return false; resultA = itA.next(); resultB = itB.next(); } return true; } exports.node_equals = node_equals; /** * Returns a collection of elements with the given qualified name which are * descendants of the given root node. * See: https://dom.spec.whatwg.org/#concept-getelementsbytagname * * @param qualifiedName - qualified name * @param root - root node */ function node_listOfElementsWithQualifiedName(qualifiedName, root) { /** * 1. If qualifiedName is "*" (U+002A), return a HTMLCollection rooted at * root, whose filter matches only descendant elements. * 2. Otherwise, if root’s node document is an HTML document, return a * HTMLCollection rooted at root, whose filter matches the following * descendant elements: * 2.1. Whose namespace is the HTML namespace and whose qualified name is * qualifiedName, in ASCII lowercase. * 2.2. Whose namespace is not the HTML namespace and whose qualified name * is qualifiedName. * 3. Otherwise, return a HTMLCollection rooted at root, whose filter * matches descendant elements whose qualified name is qualifiedName. */ if (qualifiedName === "*") { return CreateAlgorithm_1.create_htmlCollection(root); } else if (root._nodeDocument._type === "html") { return CreateAlgorithm_1.create_htmlCollection(root, function (ele) { if (ele._namespace === infra_1.namespace.HTML && ele._qualifiedName === qualifiedName.toLowerCase()) { return true; } else if (ele._namespace !== infra_1.namespace.HTML && ele._qualifiedName === qualifiedName) { return true; } else { return false; } }); } else { return CreateAlgorithm_1.create_htmlCollection(root, function (ele) { return (ele._qualifiedName === qualifiedName); }); } } exports.node_listOfElementsWithQualifiedName = node_listOfElementsWithQualifiedName; /** * Returns a collection of elements with the given namespace which are * descendants of the given root node. * See: https://dom.spec.whatwg.org/#concept-getelementsbytagnamens * * @param namespace - element namespace * @param localName - local name * @param root - root node */ function node_listOfElementsWithNamespace(namespace, localName, root) { /** * 1. If namespace is the empty string, set it to null. * 2. If both namespace and localName are "*" (U+002A), return a * HTMLCollection rooted at root, whose filter matches descendant elements. * 3. Otherwise, if namespace is "*" (U+002A), return a HTMLCollection * rooted at root, whose filter matches descendant elements whose local * name is localName. * 4. Otherwise, if localName is "*" (U+002A), return a HTMLCollection * rooted at root, whose filter matches descendant elements whose * namespace is namespace. * 5. Otherwise, return a HTMLCollection rooted at root, whose filter * matches descendant elements whose namespace is namespace and local * name is localName. */ if (namespace === '') namespace = null; if (namespace === "*" && localName === "*") { return CreateAlgorithm_1.create_htmlCollection(root); } else if (namespace === "*") { return CreateAlgorithm_1.create_htmlCollection(root, function (ele) { return (ele._localName === localName); }); } else if (localName === "*") { return CreateAlgorithm_1.create_htmlCollection(root, function (ele) { return (ele._namespace === namespace); }); } else { return CreateAlgorithm_1.create_htmlCollection(root, function (ele) { return (ele._localName === localName && ele._namespace === namespace); }); } } exports.node_listOfElementsWithNamespace = node_listOfElementsWithNamespace; /** * Returns a collection of elements with the given class names which are * descendants of the given root node. * See: https://dom.spec.whatwg.org/#concept-getelementsbyclassname * * @param namespace - element namespace * @param localName - local name * @param root - root node */ function node_listOfElementsWithClassNames(classNames, root) { /** * 1. Let classes be the result of running the ordered set parser * on classNames. * 2. If classes is the empty set, return an empty HTMLCollection. * 3. Return a HTMLCollection rooted at root, whose filter matches * descendant elements that have all their classes in classes. * The comparisons for the classes must be done in an ASCII case-insensitive * manner if root’s node document’s mode is "quirks", and in a * case-sensitive manner otherwise. */ var classes = OrderedSetAlgorithm_1.orderedSet_parse(classNames); if (classes.size === 0) { return CreateAlgorithm_1.create_htmlCollection(root, function () { return false; }); } var caseSensitive = (root._nodeDocument._mode !== "quirks"); return CreateAlgorithm_1.create_htmlCollection(root, function (ele) { var eleClasses = ele.classList; return OrderedSetAlgorithm_1.orderedSet_contains(eleClasses._tokenSet, classes, caseSensitive); }); } exports.node_listOfElementsWithClassNames = node_listOfElementsWithClassNames; /** * Searches for a namespace prefix associated with the given namespace * starting from the given element through its ancestors. * * @param element - an element node to start searching at * @param namespace - namespace to search for */ function node_locateANamespacePrefix(element, namespace) { /** * 1. If element’s namespace is namespace and its namespace prefix is not * null, then return its namespace prefix. */ if (element._namespace === namespace && element._namespacePrefix !== null) { return element._namespacePrefix; } /** * 2. If element has an attribute whose namespace prefix is "xmlns" and * value is namespace, then return element’s first such attribute’s * local name. */ for (var i = 0; i < element._attributeList.length; i++) { var attr = element._attributeList[i]; if (attr._namespacePrefix === "xmlns" && attr._value === namespace) { return attr._localName; } } /** * 3. If element’s parent element is not null, then return the result of * running locate a namespace prefix on that element using namespace. */ if (element._parent && util_1.Guard.isElementNode(element._parent)) { return node_locateANamespacePrefix(element._parent, namespace); } /** * 4. Return null. */ return null; } exports.node_locateANamespacePrefix = node_locateANamespacePrefix; /** * Searches for a namespace associated with the given namespace prefix * starting from the given node through its ancestors. * * @param node - a node to start searching at * @param prefix - namespace prefix to search for */ function node_locateANamespace(node, prefix) { if (util_1.Guard.isElementNode(node)) { /** * 1. If its namespace is not null and its namespace prefix is prefix, * then return namespace. */ if (node._namespace !== null && node._namespacePrefix === prefix) { return node._namespace; } /** * 2. If it has an attribute whose namespace is the XMLNS namespace, * namespace prefix is "xmlns", and local name is prefix, or if prefix * is null and it has an attribute whose namespace is the XMLNS namespace, * namespace prefix is null, and local name is "xmlns", then return its * value if it is not the empty string, and null otherwise. */ for (var i = 0; i < node._attributeList.length; i++) { var attr = node._attributeList[i]; if (attr._namespace === infra_1.namespace.XMLNS && attr._namespacePrefix === "xmlns" && attr._localName === prefix) { return attr._value || null; } if (prefix === null && attr._namespace === infra_1.namespace.XMLNS && attr._namespacePrefix === null && attr._localName === "xmlns") { return attr._value || null; } } /** * 3. If its parent element is null, then return null. */ if (node.parentElement === null) return null; /** * 4. Return the result of running locate a namespace on its parent * element using prefix. */ return node_locateANamespace(node.parentElement, prefix); } else if (util_1.Guard.isDocumentNode(node)) { /** * 1. If its document element is null, then return null. * 2. Return the result of running locate a namespace on its document * element using prefix. */ if (node.documentElement === null) return null; return node_locateANamespace(node.documentElement, prefix); } else if (util_1.Guard.isDocumentTypeNode(node) || util_1.Guard.isDocumentFragmentNode(node)) { return null; } else if (util_1.Guard.isAttrNode(node)) { /** * 1. If its element is null, then return null. * 2. Return the result of running locate a namespace on its element * using prefix. */ if (node._element === null) return null; return node_locateANamespace(node._element, prefix); } else { /** * 1. If its parent element is null, then return null. * 2. Return the result of running locate a namespace on its parent * element using prefix. */ if (!node._parent || !util_1.Guard.isElementNode(node._parent)) return null; return node_locateANamespace(node._parent, prefix); } } exports.node_locateANamespace = node_locateANamespace; //# sourceMappingURL=NodeAlgorithm.js.map /***/ }), /***/ 3973: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var DOMImpl_1 = __nccwpck_require__(14177); var interfaces_1 = __nccwpck_require__(27305); var TraversalAlgorithm_1 = __nccwpck_require__(80998); var TreeAlgorithm_1 = __nccwpck_require__(16620); /** * Returns the next or previous node in the subtree, or `null` if * there are none. * * @param iterator - the `NodeIterator` instance * @param forward- `true` to return the next node, or `false` to * return the previous node. */ function nodeIterator_traverse(iterator, forward) { /** * 1. Let node be iterator’s reference. * 2. Let beforeNode be iterator’s pointer before reference. */ var node = iterator._reference; var beforeNode = iterator._pointerBeforeReference; /** * 3. While true: */ while (true) { /** * 3.1. Branch on direction: */ if (forward) { /** * - next */ if (!beforeNode) { /** * If beforeNode is false, then set node to the first node following * node in iterator’s iterator collection. If there is no such node, * then return null. */ var nextNode = TreeAlgorithm_1.tree_getFollowingNode(iterator._root, node); if (nextNode) { node = nextNode; } else { return null; } } else { /** * If beforeNode is true, then set it to false. */ beforeNode = false; } } else { /** * - previous */ if (beforeNode) { /** * If beforeNode is true, then set node to the first node preceding * node in iterator’s iterator collection. If there is no such node, * then return null. */ var prevNode = TreeAlgorithm_1.tree_getPrecedingNode(iterator.root, node); if (prevNode) { node = prevNode; } else { return null; } } else { /** * If beforeNode is false, then set it to true. */ beforeNode = true; } } /** * 3.2. Let result be the result of filtering node within iterator. * 3.3. If result is FILTER_ACCEPT, then break. */ var result = TraversalAlgorithm_1.traversal_filter(iterator, node); if (result === interfaces_1.FilterResult.Accept) { break; } } /** * 4. Set iterator’s reference to node. * 5. Set iterator’s pointer before reference to beforeNode. * 6. Return node. */ iterator._reference = node; iterator._pointerBeforeReference = beforeNode; return node; } exports.nodeIterator_traverse = nodeIterator_traverse; /** * Gets the global iterator list. */ function nodeIterator_iteratorList() { return DOMImpl_1.dom.window._iteratorList; } exports.nodeIterator_iteratorList = nodeIterator_iteratorList; //# sourceMappingURL=NodeIteratorAlgorithm.js.map /***/ }), /***/ 53670: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __read = (this && this.__read) || function (o, n) { var m = typeof Symbol === "function" && o[Symbol.iterator]; if (!m) return o; var i = m.call(o), r, ar = [], e; try { while ((n === void 0 || n-- > 0) && !(r = i.next()).done) ar.push(r.value); } catch (error) { e = { error: error }; } finally { try { if (r && !r.done && (m = i["return"])) m.call(i); } finally { if (e) throw e.error; } } return ar; }; var __spread = (this && this.__spread) || function () { for (var ar = [], i = 0; i < arguments.length; i++) ar = ar.concat(__read(arguments[i])); return ar; }; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; Object.defineProperty(exports, "__esModule", ({ value: true })); var infra_1 = __nccwpck_require__(84251); /** * Converts a whitespace separated string into an array of tokens. * * @param value - a string of whitespace separated tokens */ function orderedSet_parse(value) { /** * 1. Let inputTokens be the result of splitting input on ASCII whitespace. * 2. Let tokens be a new ordered set. * 3. For each token in inputTokens, append token to tokens. * 4. Return tokens. */ var inputTokens = infra_1.string.splitAStringOnASCIIWhitespace(value); return new Set(inputTokens); } exports.orderedSet_parse = orderedSet_parse; /** * Converts an array of tokens into a space separated string. * * @param tokens - an array of token strings */ function orderedSet_serialize(tokens) { /** * The ordered set serializer takes a set and returns the concatenation of * set using U+0020 SPACE. */ return __spread(tokens).join(' '); } exports.orderedSet_serialize = orderedSet_serialize; /** * Removes duplicate tokens and convert all whitespace characters * to space. * * @param value - a string of whitespace separated tokens */ function orderedSet_sanitize(value) { return orderedSet_serialize(orderedSet_parse(value)); } exports.orderedSet_sanitize = orderedSet_sanitize; /** * Determines whether a set contains the other. * * @param set1 - a set * @param set1 - a set that is contained in set1 * @param caseSensitive - whether matches are case-sensitive */ function orderedSet_contains(set1, set2, caseSensitive) { var e_1, _a, e_2, _b; try { for (var set2_1 = __values(set2), set2_1_1 = set2_1.next(); !set2_1_1.done; set2_1_1 = set2_1.next()) { var val2 = set2_1_1.value; var found = false; try { for (var set1_1 = (e_2 = void 0, __values(set1)), set1_1_1 = set1_1.next(); !set1_1_1.done; set1_1_1 = set1_1.next()) { var val1 = set1_1_1.value; if (caseSensitive) { if (val1 === val2) { found = true; break; } } else { if (val1.toUpperCase() === val2.toUpperCase()) { found = true; break; } } } } catch (e_2_1) { e_2 = { error: e_2_1 }; } finally { try { if (set1_1_1 && !set1_1_1.done && (_b = set1_1.return)) _b.call(set1_1); } finally { if (e_2) throw e_2.error; } } if (!found) return false; } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (set2_1_1 && !set2_1_1.done && (_a = set2_1.return)) _a.call(set2_1); } finally { if (e_1) throw e_1.error; } } return true; } exports.orderedSet_contains = orderedSet_contains; //# sourceMappingURL=OrderedSetAlgorithm.js.map /***/ }), /***/ 2328: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; Object.defineProperty(exports, "__esModule", ({ value: true })); var util_1 = __nccwpck_require__(76195); var CreateAlgorithm_1 = __nccwpck_require__(57339); /** * Converts the given nodes or strings into a node (if `nodes` has * only one element) or a document fragment. * * @param nodes - the array of nodes or strings, * @param document - owner document */ function parentNode_convertNodesIntoANode(nodes, document) { var e_1, _a; /** * 1. Let node be null. * 2. Replace each string in nodes with a new Text node whose data is the * string and node document is document. */ var node = null; for (var i = 0; i < nodes.length; i++) { var item = nodes[i]; if (util_1.isString(item)) { var text = CreateAlgorithm_1.create_text(document, item); nodes[i] = text; } } /** * 3. If nodes contains one node, set node to that node. * 4. Otherwise, set node to a new DocumentFragment whose node document is * document, and then append each node in nodes, if any, to it. */ if (nodes.length === 1) { node = nodes[0]; } else { node = CreateAlgorithm_1.create_documentFragment(document); var ns = node; try { for (var nodes_1 = __values(nodes), nodes_1_1 = nodes_1.next(); !nodes_1_1.done; nodes_1_1 = nodes_1.next()) { var item = nodes_1_1.value; ns.appendChild(item); } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (nodes_1_1 && !nodes_1_1.done && (_a = nodes_1.return)) _a.call(nodes_1); } finally { if (e_1) throw e_1.error; } } } /** * 5. Return node. */ return node; } exports.parentNode_convertNodesIntoANode = parentNode_convertNodesIntoANode; //# sourceMappingURL=ParentNodeAlgorithm.js.map /***/ }), /***/ 30457: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; var __read = (this && this.__read) || function (o, n) { var m = typeof Symbol === "function" && o[Symbol.iterator]; if (!m) return o; var i = m.call(o), r, ar = [], e; try { while ((n === void 0 || n-- > 0) && !(r = i.next()).done) ar.push(r.value); } catch (error) { e = { error: error }; } finally { try { if (r && !r.done && (m = i["return"])) m.call(i); } finally { if (e) throw e.error; } } return ar; }; var __spread = (this && this.__spread) || function () { for (var ar = [], i = 0; i < arguments.length; i++) ar = ar.concat(__read(arguments[i])); return ar; }; Object.defineProperty(exports, "__esModule", ({ value: true })); var interfaces_1 = __nccwpck_require__(27305); var DOMException_1 = __nccwpck_require__(13166); var util_1 = __nccwpck_require__(65282); var CreateAlgorithm_1 = __nccwpck_require__(57339); var TreeAlgorithm_1 = __nccwpck_require__(16620); var BoundaryPointAlgorithm_1 = __nccwpck_require__(81054); var CharacterDataAlgorithm_1 = __nccwpck_require__(19461); var NodeAlgorithm_1 = __nccwpck_require__(74924); var MutationAlgorithm_1 = __nccwpck_require__(45463); var TextAlgorithm_1 = __nccwpck_require__(13512); /** * Determines if the node's start boundary point is at its end boundary * point. * * @param range - a range */ function range_collapsed(range) { /** * A range is collapsed if its start node is its end node and its start offset is its end offset. */ return (range._startNode === range._endNode && range._startOffset === range._endOffset); } exports.range_collapsed = range_collapsed; /** * Gets the root node of a range. * * @param range - a range */ function range_root(range) { /** * The root of a live range is the root of its start node. */ return TreeAlgorithm_1.tree_rootNode(range._startNode); } exports.range_root = range_root; /** * Determines if a node is fully contained in a range. * * @param node - a node * @param range - a range */ function range_isContained(node, range) { /** * A node node is contained in a live range range if node’s root is range’s * root, and (node, 0) is after range’s start, and (node, node’s length) is * before range’s end. */ return (TreeAlgorithm_1.tree_rootNode(node) === range_root(range) && BoundaryPointAlgorithm_1.boundaryPoint_position([node, 0], range._start) === interfaces_1.BoundaryPosition.After && BoundaryPointAlgorithm_1.boundaryPoint_position([node, TreeAlgorithm_1.tree_nodeLength(node)], range._end) === interfaces_1.BoundaryPosition.Before); } exports.range_isContained = range_isContained; /** * Determines if a node is partially contained in a range. * * @param node - a node * @param range - a range */ function range_isPartiallyContained(node, range) { /** * A node is partially contained in a live range if it’s an inclusive * ancestor of the live range’s start node but not its end node, * or vice versa. */ var startCheck = TreeAlgorithm_1.tree_isAncestorOf(range._startNode, node, true); var endCheck = TreeAlgorithm_1.tree_isAncestorOf(range._endNode, node, true); return (startCheck && !endCheck) || (!startCheck && endCheck); } exports.range_isPartiallyContained = range_isPartiallyContained; /** * Sets the start boundary point of a range. * * @param range - a range * @param node - a node * @param offset - an offset into node */ function range_setTheStart(range, node, offset) { /** * 1. If node is a doctype, then throw an "InvalidNodeTypeError" DOMException. * 2. If offset is greater than node’s length, then throw an "IndexSizeError" * DOMException. * 3. Let bp be the boundary point (node, offset). * 4. If these steps were invoked as "set the start" * 4.1. If bp is after the range’s end, or if range’s root is not equal to * node’s root, set range’s end to bp. * 4.2. Set range’s start to bp. */ if (util_1.Guard.isDocumentTypeNode(node)) { throw new DOMException_1.InvalidNodeTypeError(); } if (offset > TreeAlgorithm_1.tree_nodeLength(node)) { throw new DOMException_1.IndexSizeError(); } var bp = [node, offset]; if (range_root(range) !== TreeAlgorithm_1.tree_rootNode(node) || BoundaryPointAlgorithm_1.boundaryPoint_position(bp, range._end) === interfaces_1.BoundaryPosition.After) { range._end = bp; } range._start = bp; } exports.range_setTheStart = range_setTheStart; /** * Sets the end boundary point of a range. * * @param range - a range * @param node - a node * @param offset - an offset into node */ function range_setTheEnd(range, node, offset) { /** * 1. If node is a doctype, then throw an "InvalidNodeTypeError" DOMException. * 2. If offset is greater than node’s length, then throw an "IndexSizeError" * DOMException. * 3. Let bp be the boundary point (node, offset). * 4. If these steps were invoked as "set the end" * 4.1. If bp is before the range’s start, or if range’s root is not equal * to node’s root, set range’s start to bp. * 4.2. Set range’s end to bp. */ if (util_1.Guard.isDocumentTypeNode(node)) { throw new DOMException_1.InvalidNodeTypeError(); } if (offset > TreeAlgorithm_1.tree_nodeLength(node)) { throw new DOMException_1.IndexSizeError(); } var bp = [node, offset]; if (range_root(range) !== TreeAlgorithm_1.tree_rootNode(node) || BoundaryPointAlgorithm_1.boundaryPoint_position(bp, range._start) === interfaces_1.BoundaryPosition.Before) { range._start = bp; } range._end = bp; } exports.range_setTheEnd = range_setTheEnd; /** * Selects a node. * * @param range - a range * @param node - a node */ function range_select(node, range) { /** * 1. Let parent be node’s parent. * 2. If parent is null, then throw an "InvalidNodeTypeError" DOMException. */ var parent = node._parent; if (parent === null) throw new DOMException_1.InvalidNodeTypeError(); /** * 3. Let index be node’s index. * 4. Set range’s start to boundary point (parent, index). * 5. Set range’s end to boundary point (parent, index plus 1). */ var index = TreeAlgorithm_1.tree_index(node); range._start = [parent, index]; range._end = [parent, index + 1]; } exports.range_select = range_select; /** * EXtracts the contents of range as a document fragment. * * @param range - a range */ function range_extract(range) { var e_1, _a, e_2, _b, e_3, _c; /** * 1. Let fragment be a new DocumentFragment node whose node document is * range’s start node’s node document. * 2. If range is collapsed, then return fragment. */ var fragment = CreateAlgorithm_1.create_documentFragment(range._startNode._nodeDocument); if (range_collapsed(range)) return fragment; /** * 3. Let original start node, original start offset, original end node, * and original end offset be range’s start node, start offset, end node, * and end offset, respectively. */ var originalStartNode = range._startNode; var originalStartOffset = range._startOffset; var originalEndNode = range._endNode; var originalEndOffset = range._endOffset; /** * 4. If original start node is original end node, and they are a Text, * ProcessingInstruction, or Comment node: * 4.1. Let clone be a clone of original start node. * 4.2. Set the data of clone to the result of substringing data with node * original start node, offset original start offset, and count original end * offset minus original start offset. * 4.3. Append clone to fragment. * 4.4. Replace data with node original start node, offset original start * offset, count original end offset minus original start offset, and data * the empty string. * 4.5. Return fragment. */ if (originalStartNode === originalEndNode && util_1.Guard.isCharacterDataNode(originalStartNode)) { var clone = NodeAlgorithm_1.node_clone(originalStartNode); clone._data = CharacterDataAlgorithm_1.characterData_substringData(originalStartNode, originalStartOffset, originalEndOffset - originalStartOffset); MutationAlgorithm_1.mutation_append(clone, fragment); CharacterDataAlgorithm_1.characterData_replaceData(originalStartNode, originalStartOffset, originalEndOffset - originalStartOffset, ''); return fragment; } /** * 5. Let common ancestor be original start node. * 6. While common ancestor is not an inclusive ancestor of original end * node, set common ancestor to its own parent. */ var commonAncestor = originalStartNode; while (!TreeAlgorithm_1.tree_isAncestorOf(originalEndNode, commonAncestor, true)) { if (commonAncestor._parent === null) { throw new Error("Parent node is null."); } commonAncestor = commonAncestor._parent; } /** * 7. Let first partially contained child be null. * 8. If original start node is not an inclusive ancestor of original end * node, set first partially contained child to the first child of common * ancestor that is partially contained in range. */ var firstPartiallyContainedChild = null; if (!TreeAlgorithm_1.tree_isAncestorOf(originalEndNode, originalStartNode, true)) { try { for (var _d = __values(commonAncestor._children), _e = _d.next(); !_e.done; _e = _d.next()) { var node = _e.value; if (range_isPartiallyContained(node, range)) { firstPartiallyContainedChild = node; break; } } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_e && !_e.done && (_a = _d.return)) _a.call(_d); } finally { if (e_1) throw e_1.error; } } } /** * 9. Let last partially contained child be null. * 10. If original end node is not an inclusive ancestor of original start * node, set last partially contained child to the last child of common * ancestor that is partially contained in range. */ var lastPartiallyContainedChild = null; if (!TreeAlgorithm_1.tree_isAncestorOf(originalStartNode, originalEndNode, true)) { var children = __spread(commonAncestor._children); for (var i = children.length - 1; i > 0; i--) { var node = children[i]; if (range_isPartiallyContained(node, range)) { lastPartiallyContainedChild = node; break; } } } /** * 11. Let contained children be a list of all children of common ancestor * that are contained in range, in tree order. * 12. If any member of contained children is a doctype, then throw a * "HierarchyRequestError" DOMException. */ var containedChildren = []; try { for (var _f = __values(commonAncestor._children), _g = _f.next(); !_g.done; _g = _f.next()) { var child = _g.value; if (range_isContained(child, range)) { if (util_1.Guard.isDocumentTypeNode(child)) { throw new DOMException_1.HierarchyRequestError(); } containedChildren.push(child); } } } catch (e_2_1) { e_2 = { error: e_2_1 }; } finally { try { if (_g && !_g.done && (_b = _f.return)) _b.call(_f); } finally { if (e_2) throw e_2.error; } } var newNode; var newOffset; if (TreeAlgorithm_1.tree_isAncestorOf(originalEndNode, originalStartNode, true)) { /** * 13. If original start node is an inclusive ancestor of original end node, * set new node to original start node and new offset to original start * offset. */ newNode = originalStartNode; newOffset = originalStartOffset; } else { /** * 14. Otherwise: * 14.1. Let reference node equal original start node. * 14.2. While reference node’s parent is not null and is not an inclusive * ancestor of original end node, set reference node to its parent. * 14.3. Set new node to the parent of reference node, and new offset to * one plus reference node’s index. */ var referenceNode = originalStartNode; while (referenceNode._parent !== null && !TreeAlgorithm_1.tree_isAncestorOf(originalEndNode, referenceNode._parent)) { referenceNode = referenceNode._parent; } /* istanbul ignore next */ if (referenceNode._parent === null) { /** * If reference node’s parent is null, it would be the root of range, * so would be an inclusive ancestor of original end node, and we could * not reach this point. */ throw new Error("Parent node is null."); } newNode = referenceNode._parent; newOffset = 1 + TreeAlgorithm_1.tree_index(referenceNode); } if (util_1.Guard.isCharacterDataNode(firstPartiallyContainedChild)) { /** * 15. If first partially contained child is a Text, ProcessingInstruction, * or Comment node: * 15.1. Let clone be a clone of original start node. * 15.2. Set the data of clone to the result of substringing data with * node original start node, offset original start offset, and count * original start node’s length minus original start offset. * 15.3. Append clone to fragment. * 15.4. Replace data with node original start node, offset original * start offset, count original start node’s length minus original start * offset, and data the empty string. */ var clone = NodeAlgorithm_1.node_clone(originalStartNode); clone._data = CharacterDataAlgorithm_1.characterData_substringData(originalStartNode, originalStartOffset, TreeAlgorithm_1.tree_nodeLength(originalStartNode) - originalStartOffset); MutationAlgorithm_1.mutation_append(clone, fragment); CharacterDataAlgorithm_1.characterData_replaceData(originalStartNode, originalStartOffset, TreeAlgorithm_1.tree_nodeLength(originalStartNode) - originalStartOffset, ''); } else if (firstPartiallyContainedChild !== null) { /** * 16. Otherwise, if first partially contained child is not null: * 16.1. Let clone be a clone of first partially contained child. * 16.2. Append clone to fragment. * 16.3. Let subrange be a new live range whose start is (original start * node, original start offset) and whose end is (first partially * contained child, first partially contained child’s length). * 16.4. Let subfragment be the result of extracting subrange. * 16.5. Append subfragment to clone. */ var clone = NodeAlgorithm_1.node_clone(firstPartiallyContainedChild); MutationAlgorithm_1.mutation_append(clone, fragment); var subrange = CreateAlgorithm_1.create_range([originalStartNode, originalStartOffset], [firstPartiallyContainedChild, TreeAlgorithm_1.tree_nodeLength(firstPartiallyContainedChild)]); var subfragment = range_extract(subrange); MutationAlgorithm_1.mutation_append(subfragment, clone); } try { /** * 17. For each contained child in contained children, append contained * child to fragment. */ for (var containedChildren_1 = __values(containedChildren), containedChildren_1_1 = containedChildren_1.next(); !containedChildren_1_1.done; containedChildren_1_1 = containedChildren_1.next()) { var child = containedChildren_1_1.value; MutationAlgorithm_1.mutation_append(child, fragment); } } catch (e_3_1) { e_3 = { error: e_3_1 }; } finally { try { if (containedChildren_1_1 && !containedChildren_1_1.done && (_c = containedChildren_1.return)) _c.call(containedChildren_1); } finally { if (e_3) throw e_3.error; } } if (util_1.Guard.isCharacterDataNode(lastPartiallyContainedChild)) { /** * 18. If last partially contained child is a Text, ProcessingInstruction, * or Comment node: * 18.1. Let clone be a clone of original end node. * 18.2. Set the data of clone to the result of substringing data with * node original end node, offset 0, and count original end offset. * 18.3. Append clone to fragment. * 18.4. Replace data with node original end node, offset 0, count * original end offset, and data the empty string. */ var clone = NodeAlgorithm_1.node_clone(originalEndNode); clone._data = CharacterDataAlgorithm_1.characterData_substringData(originalEndNode, 0, originalEndOffset); MutationAlgorithm_1.mutation_append(clone, fragment); CharacterDataAlgorithm_1.characterData_replaceData(originalEndNode, 0, originalEndOffset, ''); } else if (lastPartiallyContainedChild !== null) { /** * 19. Otherwise, if last partially contained child is not null: * 19.1. Let clone be a clone of last partially contained child. * 19.2. Append clone to fragment. * 19.3. Let subrange be a new live range whose start is (last partially * contained child, 0) and whose end is (original end node, original * end offset). * 19.4. Let subfragment be the result of extracting subrange. * 19.5. Append subfragment to clone. */ var clone = NodeAlgorithm_1.node_clone(lastPartiallyContainedChild); MutationAlgorithm_1.mutation_append(clone, fragment); var subrange = CreateAlgorithm_1.create_range([lastPartiallyContainedChild, 0], [originalEndNode, originalEndOffset]); var subfragment = range_extract(subrange); MutationAlgorithm_1.mutation_append(subfragment, clone); } /** * 20. Set range’s start and end to (new node, new offset). */ range._start = [newNode, newOffset]; range._end = [newNode, newOffset]; /** * 21. Return fragment. */ return fragment; } exports.range_extract = range_extract; /** * Clones the contents of range as a document fragment. * * @param range - a range */ function range_cloneTheContents(range) { var e_4, _a, e_5, _b, e_6, _c; /** * 1. Let fragment be a new DocumentFragment node whose node document * is range’s start node’s node document. * 2. If range is collapsed, then return fragment. */ var fragment = CreateAlgorithm_1.create_documentFragment(range._startNode._nodeDocument); if (range_collapsed(range)) return fragment; /** * 3. Let original start node, original start offset, original end node, * and original end offset be range’s start node, start offset, end node, * and end offset, respectively. * 4. If original start node is original end node, and they are a Text, * ProcessingInstruction, or Comment node: * 4.1. Let clone be a clone of original start node. * 4.2. Set the data of clone to the result of substringing data with node * original start node, offset original start offset, and count original end * offset minus original start offset. * 4.3. Append clone to fragment. * 4.5. Return fragment. */ var originalStartNode = range._startNode; var originalStartOffset = range._startOffset; var originalEndNode = range._endNode; var originalEndOffset = range._endOffset; if (originalStartNode === originalEndNode && util_1.Guard.isCharacterDataNode(originalStartNode)) { var clone = NodeAlgorithm_1.node_clone(originalStartNode); clone._data = CharacterDataAlgorithm_1.characterData_substringData(originalStartNode, originalStartOffset, originalEndOffset - originalStartOffset); MutationAlgorithm_1.mutation_append(clone, fragment); } /** * 5. Let common ancestor be original start node. * 6. While common ancestor is not an inclusive ancestor of original end * node, set common ancestor to its own parent. */ var commonAncestor = originalStartNode; while (!TreeAlgorithm_1.tree_isAncestorOf(originalEndNode, commonAncestor, true)) { if (commonAncestor._parent === null) { throw new Error("Parent node is null."); } commonAncestor = commonAncestor._parent; } /** * 7. Let first partially contained child be null. * 8. If original start node is not an inclusive ancestor of original end * node, set first partially contained child to the first child of common * ancestor that is partially contained in range. */ var firstPartiallyContainedChild = null; if (!TreeAlgorithm_1.tree_isAncestorOf(originalEndNode, originalStartNode, true)) { try { for (var _d = __values(commonAncestor._children), _e = _d.next(); !_e.done; _e = _d.next()) { var node = _e.value; if (range_isPartiallyContained(node, range)) { firstPartiallyContainedChild = node; break; } } } catch (e_4_1) { e_4 = { error: e_4_1 }; } finally { try { if (_e && !_e.done && (_a = _d.return)) _a.call(_d); } finally { if (e_4) throw e_4.error; } } } /** * 9. Let last partially contained child be null. * 10. If original end node is not an inclusive ancestor of original start * node, set last partially contained child to the last child of common * ancestor that is partially contained in range. */ var lastPartiallyContainedChild = null; if (!TreeAlgorithm_1.tree_isAncestorOf(originalStartNode, originalEndNode, true)) { var children = __spread(commonAncestor._children); for (var i = children.length - 1; i > 0; i--) { var node = children[i]; if (range_isPartiallyContained(node, range)) { lastPartiallyContainedChild = node; break; } } } /** * 11. Let contained children be a list of all children of common ancestor * that are contained in range, in tree order. * 12. If any member of contained children is a doctype, then throw a * "HierarchyRequestError" DOMException. */ var containedChildren = []; try { for (var _f = __values(commonAncestor._children), _g = _f.next(); !_g.done; _g = _f.next()) { var child = _g.value; if (range_isContained(child, range)) { if (util_1.Guard.isDocumentTypeNode(child)) { throw new DOMException_1.HierarchyRequestError(); } containedChildren.push(child); } } } catch (e_5_1) { e_5 = { error: e_5_1 }; } finally { try { if (_g && !_g.done && (_b = _f.return)) _b.call(_f); } finally { if (e_5) throw e_5.error; } } if (util_1.Guard.isCharacterDataNode(firstPartiallyContainedChild)) { /** * 13. If first partially contained child is a Text, ProcessingInstruction, * or Comment node: * 13.1. Let clone be a clone of original start node. * 13.2. Set the data of clone to the result of substringing data with * node original start node, offset original start offset, and count * original start node’s length minus original start offset. * 13.3. Append clone to fragment. */ var clone = NodeAlgorithm_1.node_clone(originalStartNode); clone._data = CharacterDataAlgorithm_1.characterData_substringData(originalStartNode, originalStartOffset, TreeAlgorithm_1.tree_nodeLength(originalStartNode) - originalStartOffset); MutationAlgorithm_1.mutation_append(clone, fragment); } else if (firstPartiallyContainedChild !== null) { /** * 14. Otherwise, if first partially contained child is not null: * 14.1. Let clone be a clone of first partially contained child. * 14.2. Append clone to fragment. * 14.3. Let subrange be a new live range whose start is (original start * node, original start offset) and whose end is (first partially * contained child, first partially contained child’s length). * 14.4. Let subfragment be the result of cloning the contents of * subrange. * 14.5. Append subfragment to clone. */ var clone = NodeAlgorithm_1.node_clone(firstPartiallyContainedChild); MutationAlgorithm_1.mutation_append(clone, fragment); var subrange = CreateAlgorithm_1.create_range([originalStartNode, originalStartOffset], [firstPartiallyContainedChild, TreeAlgorithm_1.tree_nodeLength(firstPartiallyContainedChild)]); var subfragment = range_cloneTheContents(subrange); MutationAlgorithm_1.mutation_append(subfragment, clone); } try { /** * 15. For each contained child in contained children, append contained * child to fragment. * 15.1. Let clone be a clone of contained child with the clone children * flag set. * 15.2. Append clone to fragment. */ for (var containedChildren_2 = __values(containedChildren), containedChildren_2_1 = containedChildren_2.next(); !containedChildren_2_1.done; containedChildren_2_1 = containedChildren_2.next()) { var child = containedChildren_2_1.value; var clone = NodeAlgorithm_1.node_clone(child); MutationAlgorithm_1.mutation_append(clone, fragment); } } catch (e_6_1) { e_6 = { error: e_6_1 }; } finally { try { if (containedChildren_2_1 && !containedChildren_2_1.done && (_c = containedChildren_2.return)) _c.call(containedChildren_2); } finally { if (e_6) throw e_6.error; } } if (util_1.Guard.isCharacterDataNode(lastPartiallyContainedChild)) { /** * 16. If last partially contained child is a Text, ProcessingInstruction, * or Comment node: * 16.1. Let clone be a clone of original end node. * 16.2. Set the data of clone to the result of substringing data with * node original end node, offset 0, and count original end offset. * 16.3. Append clone to fragment. */ var clone = NodeAlgorithm_1.node_clone(originalEndNode); clone._data = CharacterDataAlgorithm_1.characterData_substringData(originalEndNode, 0, originalEndOffset); MutationAlgorithm_1.mutation_append(clone, fragment); } else if (lastPartiallyContainedChild !== null) { /** * 17. Otherwise, if last partially contained child is not null: * 17.1. Let clone be a clone of last partially contained child. * 17.2. Append clone to fragment. * 17.3. Let subrange be a new live range whose start is (last partially * contained child, 0) and whose end is (original end node, original * end offset). * 17.4. Let subfragment be the result of cloning the contents of subrange. * 17.5. Append subfragment to clone. */ var clone = NodeAlgorithm_1.node_clone(lastPartiallyContainedChild); fragment.append(clone); var subrange = CreateAlgorithm_1.create_range([lastPartiallyContainedChild, 0], [originalEndNode, originalEndOffset]); var subfragment = range_extract(subrange); MutationAlgorithm_1.mutation_append(subfragment, clone); } /** * 18. Return fragment. */ return fragment; } exports.range_cloneTheContents = range_cloneTheContents; /** * Inserts a node into a range at the start boundary point. * * @param node - node to insert * @param range - a range */ function range_insert(node, range) { var e_7, _a; /** * 1. If range’s start node is a ProcessingInstruction or Comment node, is a * Text node whose parent is null, or is node, then throw a * "HierarchyRequestError" DOMException. */ if (util_1.Guard.isProcessingInstructionNode(range._startNode) || util_1.Guard.isCommentNode(range._startNode) || (util_1.Guard.isTextNode(range._startNode) && range._startNode._parent === null) || range._startNode === node) { throw new DOMException_1.HierarchyRequestError(); } /** * 2. Let referenceNode be null. * 3. If range’s start node is a Text node, set referenceNode to that Text * node. * 4. Otherwise, set referenceNode to the child of start node whose index is * start offset, and null if there is no such child. */ var referenceNode = null; if (util_1.Guard.isTextNode(range._startNode)) { referenceNode = range._startNode; } else { var index = 0; try { for (var _b = __values(range._startNode._children), _c = _b.next(); !_c.done; _c = _b.next()) { var child = _c.value; if (index === range._startOffset) { referenceNode = child; break; } index++; } } catch (e_7_1) { e_7 = { error: e_7_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_7) throw e_7.error; } } } /** * 5. Let parent be range’s start node if referenceNode is null, and * referenceNode’s parent otherwise. */ var parent; if (referenceNode === null) { parent = range._startNode; } else { if (referenceNode._parent === null) { throw new Error("Parent node is null."); } parent = referenceNode._parent; } /** * 6. Ensure pre-insertion validity of node into parent before referenceNode. */ MutationAlgorithm_1.mutation_ensurePreInsertionValidity(node, parent, referenceNode); /** * 7. If range’s start node is a Text node, set referenceNode to the result * of splitting it with offset range’s start offset. */ if (util_1.Guard.isTextNode(range._startNode)) { referenceNode = TextAlgorithm_1.text_split(range._startNode, range._startOffset); } /** * 8. If node is referenceNode, set referenceNode to its next sibling. */ if (node === referenceNode) { referenceNode = node._nextSibling; } /** * 9. If node’s parent is not null, remove node from its parent. */ if (node._parent !== null) { MutationAlgorithm_1.mutation_remove(node, node._parent); } /** * 10. Let newOffset be parent’s length if referenceNode is null, and * referenceNode’s index otherwise. */ var newOffset = (referenceNode === null ? TreeAlgorithm_1.tree_nodeLength(parent) : TreeAlgorithm_1.tree_index(referenceNode)); /** * 11. Increase newOffset by node’s length if node is a DocumentFragment * node, and one otherwise. */ if (util_1.Guard.isDocumentFragmentNode(node)) { newOffset += TreeAlgorithm_1.tree_nodeLength(node); } else { newOffset++; } /** * 12. Pre-insert node into parent before referenceNode. */ MutationAlgorithm_1.mutation_preInsert(node, parent, referenceNode); /** * 13. If range is collapsed, then set range’s end to (parent, newOffset). */ if (range_collapsed(range)) { range._end = [parent, newOffset]; } } exports.range_insert = range_insert; /** * Traverses through all contained nodes of a range. * * @param range - a range */ function range_getContainedNodes(range) { var _a; return _a = {}, _a[Symbol.iterator] = function () { var container = range.commonAncestorContainer; var currentNode = TreeAlgorithm_1.tree_getFirstDescendantNode(container); return { next: function () { while (currentNode && !range_isContained(currentNode, range)) { currentNode = TreeAlgorithm_1.tree_getNextDescendantNode(container, currentNode); } if (currentNode === null) { return { done: true, value: null }; } else { var result = { done: false, value: currentNode }; currentNode = TreeAlgorithm_1.tree_getNextDescendantNode(container, currentNode); return result; } } }; }, _a; } exports.range_getContainedNodes = range_getContainedNodes; /** * Traverses through all partially contained nodes of a range. * * @param range - a range */ function range_getPartiallyContainedNodes(range) { var _a; return _a = {}, _a[Symbol.iterator] = function () { var container = range.commonAncestorContainer; var currentNode = TreeAlgorithm_1.tree_getFirstDescendantNode(container); return { next: function () { while (currentNode && !range_isPartiallyContained(currentNode, range)) { currentNode = TreeAlgorithm_1.tree_getNextDescendantNode(container, currentNode); } if (currentNode === null) { return { done: true, value: null }; } else { var result = { done: false, value: currentNode }; currentNode = TreeAlgorithm_1.tree_getNextDescendantNode(container, currentNode); return result; } } }; }, _a; } exports.range_getPartiallyContainedNodes = range_getPartiallyContainedNodes; //# sourceMappingURL=RangeAlgorithm.js.map /***/ }), /***/ 41853: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var DOMException_1 = __nccwpck_require__(13166); /** * Matches elements with the given selectors. * * @param selectors - selectors * @param node - the node to match against */ function selectors_scopeMatchASelectorsString(selectors, node) { /** * TODO: Selectors * 1. Let s be the result of parse a selector selectors. [SELECTORS4] * 2. If s is failure, then throw a "SyntaxError" DOMException. * 3. Return the result of match a selector against a tree with s and node’s * root using scoping root node. [SELECTORS4]. */ throw new DOMException_1.NotSupportedError(); } exports.selectors_scopeMatchASelectorsString = selectors_scopeMatchASelectorsString; //# sourceMappingURL=SelectorsAlgorithm.js.map /***/ }), /***/ 68733: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; var __read = (this && this.__read) || function (o, n) { var m = typeof Symbol === "function" && o[Symbol.iterator]; if (!m) return o; var i = m.call(o), r, ar = [], e; try { while ((n === void 0 || n-- > 0) && !(r = i.next()).done) ar.push(r.value); } catch (error) { e = { error: error }; } finally { try { if (r && !r.done && (m = i["return"])) m.call(i); } finally { if (e) throw e.error; } } return ar; }; var __spread = (this && this.__spread) || function () { for (var ar = [], i = 0; i < arguments.length; i++) ar = ar.concat(__read(arguments[i])); return ar; }; Object.defineProperty(exports, "__esModule", ({ value: true })); var DOMImpl_1 = __nccwpck_require__(14177); var util_1 = __nccwpck_require__(65282); var util_2 = __nccwpck_require__(76195); var TreeAlgorithm_1 = __nccwpck_require__(16620); var MutationObserverAlgorithm_1 = __nccwpck_require__(78157); /** * Signals a slot change to the given slot. * * @param slot - a slot */ function shadowTree_signalASlotChange(slot) { /** * 1. Append slot to slot’s relevant agent’s signal slots. * 2. Queue a mutation observer microtask. */ var window = DOMImpl_1.dom.window; window._signalSlots.add(slot); MutationObserverAlgorithm_1.observer_queueAMutationObserverMicrotask(); } exports.shadowTree_signalASlotChange = shadowTree_signalASlotChange; /** * Determines whether a the shadow tree of the given element node is * connected to a document node. * * @param element - an element node of the shadow tree */ function shadowTree_isConnected(element) { /** * An element is connected if its shadow-including root is a document. */ return util_1.Guard.isDocumentNode(TreeAlgorithm_1.tree_rootNode(element, true)); } exports.shadowTree_isConnected = shadowTree_isConnected; /** * Determines whether a slotable is assigned. * * @param slotable - a slotable */ function shadowTree_isAssigned(slotable) { /** * A slotable is assigned if its assigned slot is non-null. */ return (slotable._assignedSlot !== null); } exports.shadowTree_isAssigned = shadowTree_isAssigned; /** * Finds a slot for the given slotable. * * @param slotable - a slotable * @param openFlag - `true` to search open shadow tree's only */ function shadowTree_findASlot(slotable, openFlag) { if (openFlag === void 0) { openFlag = false; } /** * 1. If slotable’s parent is null, then return null. * 2. Let shadow be slotable’s parent’s shadow root. * 3. If shadow is null, then return null. * 4. If the open flag is set and shadow’s mode is not "open", then * return null. * 5. Return the first slot in tree order in shadow’s descendants whose name * is slotable’s name, if any, and null otherwise. */ var node = util_1.Cast.asNode(slotable); var parent = node._parent; if (parent === null) return null; var shadow = parent._shadowRoot || null; if (shadow === null) return null; if (openFlag && shadow._mode !== "open") return null; var child = TreeAlgorithm_1.tree_getFirstDescendantNode(shadow, false, true, function (e) { return util_1.Guard.isSlot(e); }); while (child !== null) { if (child._name === slotable._name) return child; child = TreeAlgorithm_1.tree_getNextDescendantNode(shadow, child, false, true, function (e) { return util_1.Guard.isSlot(e); }); } return null; } exports.shadowTree_findASlot = shadowTree_findASlot; /** * Finds slotables for the given slot. * * @param slot - a slot */ function shadowTree_findSlotables(slot) { var e_1, _a; /** * 1. Let result be an empty list. * 2. If slot’s root is not a shadow root, then return result. */ var result = []; var root = TreeAlgorithm_1.tree_rootNode(slot); if (!util_1.Guard.isShadowRoot(root)) return result; /** * 3. Let host be slot’s root’s host. * 4. For each slotable child of host, slotable, in tree order: */ var host = root._host; try { for (var _b = __values(host._children), _c = _b.next(); !_c.done; _c = _b.next()) { var slotable = _c.value; if (util_1.Guard.isSlotable(slotable)) { /** * 4.1. Let foundSlot be the result of finding a slot given slotable. * 4.2. If foundSlot is slot, then append slotable to result. */ var foundSlot = shadowTree_findASlot(slotable); if (foundSlot === slot) { result.push(slotable); } } } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_1) throw e_1.error; } } /** * 5. Return result. */ return result; } exports.shadowTree_findSlotables = shadowTree_findSlotables; /** * Finds slotables for the given slot. * * @param slot - a slot */ function shadowTree_findFlattenedSlotables(slot) { var e_2, _a, e_3, _b; /** * 1. Let result be an empty list. * 2. If slot’s root is not a shadow root, then return result. */ var result = []; var root = TreeAlgorithm_1.tree_rootNode(slot); if (!util_1.Guard.isShadowRoot(root)) return result; /** * 3. Let slotables be the result of finding slotables given slot. * 4. If slotables is the empty list, then append each slotable child of * slot, in tree order, to slotables. */ var slotables = shadowTree_findSlotables(slot); if (util_2.isEmpty(slotables)) { try { for (var _c = __values(slot._children), _d = _c.next(); !_d.done; _d = _c.next()) { var slotable = _d.value; if (util_1.Guard.isSlotable(slotable)) { slotables.push(slotable); } } } catch (e_2_1) { e_2 = { error: e_2_1 }; } finally { try { if (_d && !_d.done && (_a = _c.return)) _a.call(_c); } finally { if (e_2) throw e_2.error; } } } try { /** * 5. For each node in slotables: */ for (var slotables_1 = __values(slotables), slotables_1_1 = slotables_1.next(); !slotables_1_1.done; slotables_1_1 = slotables_1.next()) { var node = slotables_1_1.value; /** * 5.1. If node is a slot whose root is a shadow root, then: */ if (util_1.Guard.isSlot(node) && util_1.Guard.isShadowRoot(TreeAlgorithm_1.tree_rootNode(node))) { /** * 5.1.1. Let temporaryResult be the result of finding flattened slotables given node. * 5.1.2. Append each slotable in temporaryResult, in order, to result. */ var temporaryResult = shadowTree_findFlattenedSlotables(node); result.push.apply(result, __spread(temporaryResult)); } else { /** * 5.2. Otherwise, append node to result. */ result.push(node); } } } catch (e_3_1) { e_3 = { error: e_3_1 }; } finally { try { if (slotables_1_1 && !slotables_1_1.done && (_b = slotables_1.return)) _b.call(slotables_1); } finally { if (e_3) throw e_3.error; } } /** * 6. Return result. */ return result; } exports.shadowTree_findFlattenedSlotables = shadowTree_findFlattenedSlotables; /** * Assigns slotables to the given slot. * * @param slot - a slot */ function shadowTree_assignSlotables(slot) { var e_4, _a; /** * 1. Let slotables be the result of finding slotables for slot. * 2. If slotables and slot’s assigned nodes are not identical, then run * signal a slot change for slot. */ var slotables = shadowTree_findSlotables(slot); if (slotables.length === slot._assignedNodes.length) { var nodesIdentical = true; for (var i = 0; i < slotables.length; i++) { if (slotables[i] !== slot._assignedNodes[i]) { nodesIdentical = false; break; } } if (!nodesIdentical) { shadowTree_signalASlotChange(slot); } } /** * 3. Set slot’s assigned nodes to slotables. * 4. For each slotable in slotables, set slotable’s assigned slot to slot. */ slot._assignedNodes = slotables; try { for (var slotables_2 = __values(slotables), slotables_2_1 = slotables_2.next(); !slotables_2_1.done; slotables_2_1 = slotables_2.next()) { var slotable = slotables_2_1.value; slotable._assignedSlot = slot; } } catch (e_4_1) { e_4 = { error: e_4_1 }; } finally { try { if (slotables_2_1 && !slotables_2_1.done && (_a = slotables_2.return)) _a.call(slotables_2); } finally { if (e_4) throw e_4.error; } } } exports.shadowTree_assignSlotables = shadowTree_assignSlotables; /** * Assigns slotables to all nodes of a tree. * * @param root - root node */ function shadowTree_assignSlotablesForATree(root) { /** * To assign slotables for a tree, given a node root, run assign slotables * for each slot slot in root’s inclusive descendants, in tree order. */ var descendant = TreeAlgorithm_1.tree_getFirstDescendantNode(root, true, false, function (e) { return util_1.Guard.isSlot(e); }); while (descendant !== null) { shadowTree_assignSlotables(descendant); descendant = TreeAlgorithm_1.tree_getNextDescendantNode(root, descendant, true, false, function (e) { return util_1.Guard.isSlot(e); }); } } exports.shadowTree_assignSlotablesForATree = shadowTree_assignSlotablesForATree; /** * Assigns a slot to a slotables. * * @param slotable - a slotable */ function shadowTree_assignASlot(slotable) { /** * 1. Let slot be the result of finding a slot with slotable. * 2. If slot is non-null, then run assign slotables for slot. */ var slot = shadowTree_findASlot(slotable); if (slot !== null) { shadowTree_assignSlotables(slot); } } exports.shadowTree_assignASlot = shadowTree_assignASlot; //# sourceMappingURL=ShadowTreeAlgorithm.js.map /***/ }), /***/ 13512: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; Object.defineProperty(exports, "__esModule", ({ value: true })); var DOMImpl_1 = __nccwpck_require__(14177); var util_1 = __nccwpck_require__(65282); var DOMException_1 = __nccwpck_require__(13166); var CreateAlgorithm_1 = __nccwpck_require__(57339); var TreeAlgorithm_1 = __nccwpck_require__(16620); var CharacterDataAlgorithm_1 = __nccwpck_require__(19461); var MutationAlgorithm_1 = __nccwpck_require__(45463); /** * Returns node with its adjacent text and cdata node siblings. * * @param node - a node * @param self - whether to include node itself */ function text_contiguousTextNodes(node, self) { var _a; if (self === void 0) { self = false; } /** * The contiguous Text nodes of a node node are node, node’s previous * sibling Text node, if any, and its contiguous Text nodes, and node’s next * sibling Text node, if any, and its contiguous Text nodes, avoiding any * duplicates. */ return _a = {}, _a[Symbol.iterator] = function () { var currentNode = node; while (currentNode && util_1.Guard.isTextNode(currentNode._previousSibling)) { currentNode = currentNode._previousSibling; } return { next: function () { if (currentNode && (!self && currentNode === node)) { if (util_1.Guard.isTextNode(currentNode._nextSibling)) { currentNode = currentNode._nextSibling; } else { currentNode = null; } } if (currentNode === null) { return { done: true, value: null }; } else { var result = { done: false, value: currentNode }; if (util_1.Guard.isTextNode(currentNode._nextSibling)) { currentNode = currentNode._nextSibling; } else { currentNode = null; } return result; } } }; }, _a; } exports.text_contiguousTextNodes = text_contiguousTextNodes; /** * Returns node with its adjacent text node siblings. * * @param node - a node * @param self - whether to include node itself */ function text_contiguousExclusiveTextNodes(node, self) { var _a; if (self === void 0) { self = false; } /** * The contiguous exclusive Text nodes of a node node are node, node’s * previous sibling exclusive Text node, if any, and its contiguous * exclusive Text nodes, and node’s next sibling exclusive Text node, * if any, and its contiguous exclusive Text nodes, avoiding any duplicates. */ return _a = {}, _a[Symbol.iterator] = function () { var currentNode = node; while (currentNode && util_1.Guard.isExclusiveTextNode(currentNode._previousSibling)) { currentNode = currentNode._previousSibling; } return { next: function () { if (currentNode && (!self && currentNode === node)) { if (util_1.Guard.isExclusiveTextNode(currentNode._nextSibling)) { currentNode = currentNode._nextSibling; } else { currentNode = null; } } if (currentNode === null) { return { done: true, value: null }; } else { var result = { done: false, value: currentNode }; if (util_1.Guard.isExclusiveTextNode(currentNode._nextSibling)) { currentNode = currentNode._nextSibling; } else { currentNode = null; } return result; } } }; }, _a; } exports.text_contiguousExclusiveTextNodes = text_contiguousExclusiveTextNodes; /** * Returns the concatenation of the data of all the Text node descendants of * node, in tree order. * * @param node - a node */ function text_descendantTextContent(node) { /** * The descendant text content of a node node is the concatenation of the * data of all the Text node descendants of node, in tree order. */ var contents = ''; var text = TreeAlgorithm_1.tree_getFirstDescendantNode(node, false, false, function (e) { return util_1.Guard.isTextNode(e); }); while (text !== null) { contents += text._data; text = TreeAlgorithm_1.tree_getNextDescendantNode(node, text, false, false, function (e) { return util_1.Guard.isTextNode(e); }); } return contents; } exports.text_descendantTextContent = text_descendantTextContent; /** * Splits data at the given offset and returns the remainder as a text * node. * * @param node - a text node * @param offset - the offset at which to split the nodes. */ function text_split(node, offset) { var e_1, _a; /** * 1. Let length be node’s length. * 2. If offset is greater than length, then throw an "IndexSizeError" * DOMException. */ var length = node._data.length; if (offset > length) { throw new DOMException_1.IndexSizeError(); } /** * 3. Let count be length minus offset. * 4. Let new data be the result of substringing data with node node, * offset offset, and count count. * 5. Let new node be a new Text node, with the same node document as node. * Set new node’s data to new data. * 6. Let parent be node’s parent. * 7. If parent is not null, then: */ var count = length - offset; var newData = CharacterDataAlgorithm_1.characterData_substringData(node, offset, count); var newNode = CreateAlgorithm_1.create_text(node._nodeDocument, newData); var parent = node._parent; if (parent !== null) { /** * 7.1. Insert new node into parent before node’s next sibling. */ MutationAlgorithm_1.mutation_insert(newNode, parent, node._nextSibling); try { /** * 7.2. For each live range whose start node is node and start offset is * greater than offset, set its start node to new node and decrease its * start offset by offset. * 7.3. For each live range whose end node is node and end offset is greater * than offset, set its end node to new node and decrease its end offset * by offset. * 7.4. For each live range whose start node is parent and start offset is * equal to the index of node plus 1, increase its start offset by 1. * 7.5. For each live range whose end node is parent and end offset is equal * to the index of node plus 1, increase its end offset by 1. */ for (var _b = __values(DOMImpl_1.dom.rangeList), _c = _b.next(); !_c.done; _c = _b.next()) { var range = _c.value; if (range._start[0] === node && range._start[1] > offset) { range._start[0] = newNode; range._start[1] -= offset; } if (range._end[0] === node && range._end[1] > offset) { range._end[0] = newNode; range._end[1] -= offset; } var index = TreeAlgorithm_1.tree_index(node); if (range._start[0] === parent && range._start[1] === index + 1) { range._start[1]++; } if (range._end[0] === parent && range._end[1] === index + 1) { range._end[1]++; } } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_1) throw e_1.error; } } } /** * 8. Replace data with node node, offset offset, count count, and data * the empty string. * 9. Return new node. */ CharacterDataAlgorithm_1.characterData_replaceData(node, offset, count, ''); return newNode; } exports.text_split = text_split; //# sourceMappingURL=TextAlgorithm.js.map /***/ }), /***/ 80998: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var interfaces_1 = __nccwpck_require__(27305); var DOMException_1 = __nccwpck_require__(13166); /** * Applies the filter to the given node and returns the result. * * @param traverser - the `NodeIterator` or `TreeWalker` instance * @param node - the node to filter */ function traversal_filter(traverser, node) { /** * 1. If traverser’s active flag is set, then throw an "InvalidStateError" * DOMException. */ if (traverser._activeFlag) { throw new DOMException_1.InvalidStateError(); } /** * 2. Let n be node’s nodeType attribute value − 1. */ var n = node._nodeType - 1; /** * 3. If the nth bit (where 0 is the least significant bit) of traverser’s * whatToShow is not set, then return FILTER_SKIP. */ var mask = 1 << n; if ((traverser.whatToShow & mask) === 0) { return interfaces_1.FilterResult.Skip; } /** * 4. If traverser’s filter is null, then return FILTER_ACCEPT. */ if (!traverser.filter) { return interfaces_1.FilterResult.Accept; } /** * 5. Set traverser’s active flag. */ traverser._activeFlag = true; /** * 6. Let result be the return value of call a user object’s operation with * traverser’s filter, "acceptNode", and « node ». If this throws an * exception, then unset traverser’s active flag and rethrow the exception. */ var result = interfaces_1.FilterResult.Reject; try { result = traverser.filter.acceptNode(node); } catch (err) { traverser._activeFlag = false; throw err; } /** * 7. Unset traverser’s active flag. * 8. Return result. */ traverser._activeFlag = false; return result; } exports.traversal_filter = traversal_filter; //# sourceMappingURL=TraversalAlgorithm.js.map /***/ }), /***/ 16620: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; Object.defineProperty(exports, "__esModule", ({ value: true })); var util_1 = __nccwpck_require__(65282); var interfaces_1 = __nccwpck_require__(27305); /** * Gets the next descendant of the given node of the tree rooted at `root` * in depth-first pre-order. * * @param root - root node of the tree * @param node - a node * @param shadow - whether to visit shadow tree nodes */ function _getNextDescendantNode(root, node, shadow) { if (shadow === void 0) { shadow = false; } // traverse shadow tree if (shadow && util_1.Guard.isElementNode(node) && util_1.Guard.isShadowRoot(node.shadowRoot)) { if (node.shadowRoot._firstChild) return node.shadowRoot._firstChild; } // traverse child nodes if (node._firstChild) return node._firstChild; if (node === root) return null; // traverse siblings if (node._nextSibling) return node._nextSibling; // traverse parent's next sibling var parent = node._parent; while (parent && parent !== root) { if (parent._nextSibling) return parent._nextSibling; parent = parent._parent; } return null; } function _emptyIterator() { var _a; return _a = {}, _a[Symbol.iterator] = function () { return { next: function () { return { done: true, value: null }; } }; }, _a; } /** * Returns the first descendant node of the tree rooted at `node` in * depth-first pre-order. * * @param node - root node of the tree * @param self - whether to include `node` in traversal * @param shadow - whether to visit shadow tree nodes * @param filter - a function to filter nodes */ function tree_getFirstDescendantNode(node, self, shadow, filter) { if (self === void 0) { self = false; } if (shadow === void 0) { shadow = false; } var firstNode = (self ? node : _getNextDescendantNode(node, node, shadow)); while (firstNode && filter && !filter(firstNode)) { firstNode = _getNextDescendantNode(node, firstNode, shadow); } return firstNode; } exports.tree_getFirstDescendantNode = tree_getFirstDescendantNode; /** * Returns the next descendant node of the tree rooted at `node` in * depth-first pre-order. * * @param node - root node of the tree * @param currentNode - current descendant node * @param self - whether to include `node` in traversal * @param shadow - whether to visit shadow tree nodes * @param filter - a function to filter nodes */ function tree_getNextDescendantNode(node, currentNode, self, shadow, filter) { if (self === void 0) { self = false; } if (shadow === void 0) { shadow = false; } var nextNode = _getNextDescendantNode(node, currentNode, shadow); while (nextNode && filter && !filter(nextNode)) { nextNode = _getNextDescendantNode(node, nextNode, shadow); } return nextNode; } exports.tree_getNextDescendantNode = tree_getNextDescendantNode; /** * Traverses through all descendant nodes of the tree rooted at * `node` in depth-first pre-order. * * @param node - root node of the tree * @param self - whether to include `node` in traversal * @param shadow - whether to visit shadow tree nodes * @param filter - a function to filter nodes */ function tree_getDescendantNodes(node, self, shadow, filter) { var _a; if (self === void 0) { self = false; } if (shadow === void 0) { shadow = false; } if (!self && node._children.size === 0) { return _emptyIterator(); } return _a = {}, _a[Symbol.iterator] = function () { var currentNode = (self ? node : _getNextDescendantNode(node, node, shadow)); return { next: function () { while (currentNode && filter && !filter(currentNode)) { currentNode = _getNextDescendantNode(node, currentNode, shadow); } if (currentNode === null) { return { done: true, value: null }; } else { var result = { done: false, value: currentNode }; currentNode = _getNextDescendantNode(node, currentNode, shadow); return result; } } }; }, _a; } exports.tree_getDescendantNodes = tree_getDescendantNodes; /** * Traverses through all descendant element nodes of the tree rooted at * `node` in depth-first preorder. * * @param node - root node of the tree * @param self - whether to include `node` in traversal * @param shadow - whether to visit shadow tree nodes * @param filter - a function to filter nodes */ function tree_getDescendantElements(node, self, shadow, filter) { var _a; if (self === void 0) { self = false; } if (shadow === void 0) { shadow = false; } if (!self && node._children.size === 0) { return _emptyIterator(); } return _a = {}, _a[Symbol.iterator] = function () { var it = tree_getDescendantNodes(node, self, shadow, function (e) { return util_1.Guard.isElementNode(e); })[Symbol.iterator](); var currentNode = it.next().value; return { next: function () { while (currentNode && filter && !filter(currentNode)) { currentNode = it.next().value; } if (currentNode === null) { return { done: true, value: null }; } else { var result = { done: false, value: currentNode }; currentNode = it.next().value; return result; } } }; }, _a; } exports.tree_getDescendantElements = tree_getDescendantElements; /** * Traverses through all sibling nodes of `node`. * * @param node - root node of the tree * @param self - whether to include `node` in traversal * @param filter - a function to filter nodes */ function tree_getSiblingNodes(node, self, filter) { var _a; if (self === void 0) { self = false; } if (!node._parent || node._parent._children.size === 0) { return _emptyIterator(); } return _a = {}, _a[Symbol.iterator] = function () { var currentNode = node._parent ? node._parent._firstChild : null; return { next: function () { while (currentNode && (filter && !filter(currentNode) || (!self && currentNode === node))) { currentNode = currentNode._nextSibling; } if (currentNode === null) { return { done: true, value: null }; } else { var result = { done: false, value: currentNode }; currentNode = currentNode._nextSibling; return result; } } }; }, _a; } exports.tree_getSiblingNodes = tree_getSiblingNodes; /** * Gets the first ancestor of `node` in reverse tree order. * * @param node - root node of the tree * @param self - whether to include `node` in traversal * @param filter - a function to filter nodes */ function tree_getFirstAncestorNode(node, self, filter) { if (self === void 0) { self = false; } var firstNode = self ? node : node._parent; while (firstNode && filter && !filter(firstNode)) { firstNode = firstNode._parent; } return firstNode; } exports.tree_getFirstAncestorNode = tree_getFirstAncestorNode; /** * Gets the first ancestor of `node` in reverse tree order. * * @param node - root node of the tree * @param self - whether to include `node` in traversal * @param filter - a function to filter nodes */ function tree_getNextAncestorNode(node, currentNode, self, filter) { if (self === void 0) { self = false; } var nextNode = currentNode._parent; while (nextNode && filter && !filter(nextNode)) { nextNode = nextNode._parent; } return nextNode; } exports.tree_getNextAncestorNode = tree_getNextAncestorNode; /** * Traverses through all ancestor nodes `node` in reverse tree order. * * @param node - root node of the tree * @param self - whether to include `node` in traversal * @param filter - a function to filter nodes */ function tree_getAncestorNodes(node, self, filter) { var _a; if (self === void 0) { self = false; } if (!self && !node._parent) { return _emptyIterator(); } return _a = {}, _a[Symbol.iterator] = function () { var currentNode = tree_getFirstAncestorNode(node, self, filter); return { next: function () { if (currentNode === null) { return { done: true, value: null }; } else { var result = { done: false, value: currentNode }; currentNode = tree_getNextAncestorNode(node, currentNode, self, filter); return result; } } }; }, _a; } exports.tree_getAncestorNodes = tree_getAncestorNodes; /** * Returns the common ancestor of the given nodes. * * @param nodeA - a node * @param nodeB - a node */ function tree_getCommonAncestor(nodeA, nodeB) { if (nodeA === nodeB) { return nodeA._parent; } // lists of parent nodes var parentsA = []; var parentsB = []; var pA = tree_getFirstAncestorNode(nodeA, true); while (pA !== null) { parentsA.push(pA); pA = tree_getNextAncestorNode(nodeA, pA, true); } var pB = tree_getFirstAncestorNode(nodeB, true); while (pB !== null) { parentsB.push(pB); pB = tree_getNextAncestorNode(nodeB, pB, true); } // walk through parents backwards until they differ var pos1 = parentsA.length; var pos2 = parentsB.length; var parent = null; for (var i = Math.min(pos1, pos2); i > 0; i--) { var parent1 = parentsA[--pos1]; var parent2 = parentsB[--pos2]; if (parent1 !== parent2) { break; } parent = parent1; } return parent; } exports.tree_getCommonAncestor = tree_getCommonAncestor; /** * Returns the node following `node` in depth-first preorder. * * @param root - root of the subtree * @param node - a node */ function tree_getFollowingNode(root, node) { if (node._firstChild) { return node._firstChild; } else if (node._nextSibling) { return node._nextSibling; } else { while (true) { var parent = node._parent; if (parent === null || parent === root) { return null; } else if (parent._nextSibling) { return parent._nextSibling; } else { node = parent; } } } } exports.tree_getFollowingNode = tree_getFollowingNode; /** * Returns the node preceding `node` in depth-first preorder. * * @param root - root of the subtree * @param node - a node */ function tree_getPrecedingNode(root, node) { if (node === root) { return null; } if (node._previousSibling) { node = node._previousSibling; if (node._lastChild) { return node._lastChild; } else { return node; } } else { return node._parent; } } exports.tree_getPrecedingNode = tree_getPrecedingNode; /** * Determines if the node tree is constrained. A node tree is * constrained as follows, expressed as a relationship between the * type of node and its allowed children: * - Document (In tree order) * * Zero or more nodes each of which is ProcessingInstruction * or Comment. * * Optionally one DocumentType node. * * Zero or more nodes each of which is ProcessingInstruction * or Comment. * * Optionally one Element node. * * Zero or more nodes each of which is ProcessingInstruction * or Comment. * - DocumentFragment, Element * * Zero or more nodes each of which is Element, Text, * ProcessingInstruction, or Comment. * - DocumentType, Text, ProcessingInstruction, Comment * * None. * * @param node - the root of the tree */ function tree_isConstrained(node) { var e_1, _a, e_2, _b, e_3, _c; switch (node._nodeType) { case interfaces_1.NodeType.Document: var hasDocType = false; var hasElement = false; try { for (var _d = __values(node._children), _e = _d.next(); !_e.done; _e = _d.next()) { var childNode = _e.value; switch (childNode._nodeType) { case interfaces_1.NodeType.ProcessingInstruction: case interfaces_1.NodeType.Comment: break; case interfaces_1.NodeType.DocumentType: if (hasDocType || hasElement) return false; hasDocType = true; break; case interfaces_1.NodeType.Element: if (hasElement) return false; hasElement = true; break; default: return false; } } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_e && !_e.done && (_a = _d.return)) _a.call(_d); } finally { if (e_1) throw e_1.error; } } break; case interfaces_1.NodeType.DocumentFragment: case interfaces_1.NodeType.Element: try { for (var _f = __values(node._children), _g = _f.next(); !_g.done; _g = _f.next()) { var childNode = _g.value; switch (childNode._nodeType) { case interfaces_1.NodeType.Element: case interfaces_1.NodeType.Text: case interfaces_1.NodeType.ProcessingInstruction: case interfaces_1.NodeType.CData: case interfaces_1.NodeType.Comment: break; default: return false; } } } catch (e_2_1) { e_2 = { error: e_2_1 }; } finally { try { if (_g && !_g.done && (_b = _f.return)) _b.call(_f); } finally { if (e_2) throw e_2.error; } } break; case interfaces_1.NodeType.DocumentType: case interfaces_1.NodeType.Text: case interfaces_1.NodeType.ProcessingInstruction: case interfaces_1.NodeType.CData: case interfaces_1.NodeType.Comment: return (!node.hasChildNodes()); } try { for (var _h = __values(node._children), _j = _h.next(); !_j.done; _j = _h.next()) { var childNode = _j.value; // recursively check child nodes if (!tree_isConstrained(childNode)) return false; } } catch (e_3_1) { e_3 = { error: e_3_1 }; } finally { try { if (_j && !_j.done && (_c = _h.return)) _c.call(_h); } finally { if (e_3) throw e_3.error; } } return true; } exports.tree_isConstrained = tree_isConstrained; /** * Returns the length of a node. * * @param node - a node to check */ function tree_nodeLength(node) { /** * To determine the length of a node node, switch on node: * - DocumentType * Zero. * - Text * - ProcessingInstruction * - Comment * Its data’s length. * - Any other node * Its number of children. */ if (util_1.Guard.isDocumentTypeNode(node)) { return 0; } else if (util_1.Guard.isCharacterDataNode(node)) { return node._data.length; } else { return node._children.size; } } exports.tree_nodeLength = tree_nodeLength; /** * Determines if a node is empty. * * @param node - a node to check */ function tree_isEmpty(node) { /** * A node is considered empty if its length is zero. */ return (tree_nodeLength(node) === 0); } exports.tree_isEmpty = tree_isEmpty; /** * Returns the root node of a tree. The root of an object is itself, * if its parent is `null`, or else it is the root of its parent. * The root of a tree is any object participating in that tree * whose parent is `null`. * * @param node - a node of the tree * @param shadow - `true` to return shadow-including root, otherwise * `false` */ function tree_rootNode(node, shadow) { if (shadow === void 0) { shadow = false; } /** * The root of an object is itself, if its parent is null, or else it is the * root of its parent. The root of a tree is any object participating in * that tree whose parent is null. */ if (shadow) { var root = tree_rootNode(node, false); if (util_1.Guard.isShadowRoot(root)) return tree_rootNode(root._host, true); else return root; } else { if (!node._parent) return node; else return tree_rootNode(node._parent); } } exports.tree_rootNode = tree_rootNode; /** * Determines whether `other` is a descendant of `node`. An object * A is called a descendant of an object B, if either A is a child * of B or A is a child of an object C that is a descendant of B. * * @param node - a node * @param other - the node to check * @param self - if `true`, traversal includes `node` itself * @param shadow - if `true`, traversal includes the * node's and its descendant's shadow trees as well. */ function tree_isDescendantOf(node, other, self, shadow) { if (self === void 0) { self = false; } if (shadow === void 0) { shadow = false; } /** * An object A is called a descendant of an object B, if either A is a * child of B or A is a child of an object C that is a descendant of B. * * An inclusive descendant is an object or one of its descendants. */ var child = tree_getFirstDescendantNode(node, self, shadow); while (child !== null) { if (child === other) { return true; } child = tree_getNextDescendantNode(node, child, self, shadow); } return false; } exports.tree_isDescendantOf = tree_isDescendantOf; /** * Determines whether `other` is an ancestor of `node`. An object A * is called an ancestor of an object B if and only if B is a * descendant of A. * * @param node - a node * @param other - the node to check * @param self - if `true`, traversal includes `node` itself * @param shadow - if `true`, traversal includes the * node's and its descendant's shadow trees as well. */ function tree_isAncestorOf(node, other, self, shadow) { if (self === void 0) { self = false; } if (shadow === void 0) { shadow = false; } var ancestor = self ? node : shadow && util_1.Guard.isShadowRoot(node) ? node._host : node._parent; while (ancestor !== null) { if (ancestor === other) return true; ancestor = shadow && util_1.Guard.isShadowRoot(ancestor) ? ancestor._host : ancestor._parent; } return false; } exports.tree_isAncestorOf = tree_isAncestorOf; /** * Determines whether `other` is a host-including ancestor of `node`. An * object A is a host-including inclusive ancestor of an object B, if either * A is an inclusive ancestor of B, or if B’s root has a non-null host and * A is a host-including inclusive ancestor of B’s root’s host. * * @param node - a node * @param other - the node to check * @param self - if `true`, traversal includes `node` itself */ function tree_isHostIncludingAncestorOf(node, other, self) { if (self === void 0) { self = false; } if (tree_isAncestorOf(node, other, self)) return true; var root = tree_rootNode(node); if (util_1.Guard.isDocumentFragmentNode(root) && root._host !== null && tree_isHostIncludingAncestorOf(root._host, other, self)) return true; return false; } exports.tree_isHostIncludingAncestorOf = tree_isHostIncludingAncestorOf; /** * Determines whether `other` is a sibling of `node`. An object A is * called a sibling of an object B, if and only if B and A share * the same non-null parent. * * @param node - a node * @param other - the node to check * @param self - if `true`, traversal includes `node` itself */ function tree_isSiblingOf(node, other, self) { if (self === void 0) { self = false; } /** * An object A is called a sibling of an object B, if and only if B and A * share the same non-null parent. * * An inclusive sibling is an object or one of its siblings. */ if (node === other) { if (self) return true; } else { return (node._parent !== null && node._parent === other._parent); } return false; } exports.tree_isSiblingOf = tree_isSiblingOf; /** * Determines whether `other` is preceding `node`. An object A is * preceding an object B if A and B are in the same tree and A comes * before B in tree order. * * @param node - a node * @param other - the node to check */ function tree_isPreceding(node, other) { /** * An object A is preceding an object B if A and B are in the same tree and * A comes before B in tree order. */ var nodePos = tree_treePosition(node); var otherPos = tree_treePosition(other); if (nodePos === -1 || otherPos === -1) return false; else if (tree_rootNode(node) !== tree_rootNode(other)) return false; else return otherPos < nodePos; } exports.tree_isPreceding = tree_isPreceding; /** * Determines whether `other` is following `node`. An object A is * following an object B if A and B are in the same tree and A comes * after B in tree order. * * @param node - a node * @param other - the node to check */ function tree_isFollowing(node, other) { /** * An object A is following an object B if A and B are in the same tree and * A comes after B in tree order. */ var nodePos = tree_treePosition(node); var otherPos = tree_treePosition(other); if (nodePos === -1 || otherPos === -1) return false; else if (tree_rootNode(node) !== tree_rootNode(other)) return false; else return otherPos > nodePos; } exports.tree_isFollowing = tree_isFollowing; /** * Determines whether `other` is the parent node of `node`. * * @param node - a node * @param other - the node to check */ function tree_isParentOf(node, other) { /** * An object that participates in a tree has a parent, which is either * null or an object, and has children, which is an ordered set of objects. * An object A whose parent is object B is a child of B. */ return (node._parent === other); } exports.tree_isParentOf = tree_isParentOf; /** * Determines whether `other` is a child node of `node`. * * @param node - a node * @param other - the node to check */ function tree_isChildOf(node, other) { /** * An object that participates in a tree has a parent, which is either * null or an object, and has children, which is an ordered set of objects. * An object A whose parent is object B is a child of B. */ return (other._parent === node); } exports.tree_isChildOf = tree_isChildOf; /** * Returns the previous sibling node of `node` or null if it has no * preceding sibling. * * @param node */ function tree_previousSibling(node) { /** * The previous sibling of an object is its first preceding sibling or null * if it has no preceding sibling. */ return node._previousSibling; } exports.tree_previousSibling = tree_previousSibling; /** * Returns the next sibling node of `node` or null if it has no * following sibling. * * @param node */ function tree_nextSibling(node) { /** * The next sibling of an object is its first following sibling or null * if it has no following sibling. */ return node._nextSibling; } exports.tree_nextSibling = tree_nextSibling; /** * Returns the first child node of `node` or null if it has no * children. * * @param node */ function tree_firstChild(node) { /** * The first child of an object is its first child or null if it has no * children. */ return node._firstChild; } exports.tree_firstChild = tree_firstChild; /** * Returns the last child node of `node` or null if it has no * children. * * @param node */ function tree_lastChild(node) { /** * The last child of an object is its last child or null if it has no * children. */ return node._lastChild; } exports.tree_lastChild = tree_lastChild; /** * Returns the zero-based index of `node` when counted preorder in * the tree rooted at `root`. Returns `-1` if `node` is not in * the tree. * * @param node - the node to get the index of */ function tree_treePosition(node) { var root = tree_rootNode(node); var pos = 0; var childNode = tree_getFirstDescendantNode(root); while (childNode !== null) { pos++; if (childNode === node) return pos; childNode = tree_getNextDescendantNode(root, childNode); } return -1; } exports.tree_treePosition = tree_treePosition; /** * Determines the index of `node`. The index of an object is its number of * preceding siblings, or 0 if it has none. * * @param node - a node * @param other - the node to check */ function tree_index(node) { /** * The index of an object is its number of preceding siblings, or 0 if it * has none. */ var n = 0; while (node._previousSibling !== null) { n++; node = node._previousSibling; } return n; } exports.tree_index = tree_index; /** * Retargets an object against another object. * * @param a - an object to retarget * @param b - an object to retarget against */ function tree_retarget(a, b) { /** * To retarget an object A against an object B, repeat these steps until * they return an object: * 1. If one of the following is true * - A is not a node * - A's root is not a shadow root * - B is a node and A's root is a shadow-including inclusive ancestor * of B * then return A. * 2. Set A to A's root's host. */ while (true) { if (!a || !util_1.Guard.isNode(a)) { return a; } var rootOfA = tree_rootNode(a); if (!util_1.Guard.isShadowRoot(rootOfA)) { return a; } if (b && util_1.Guard.isNode(b) && tree_isAncestorOf(rootOfA, b, true, true)) { return a; } a = rootOfA.host; } } exports.tree_retarget = tree_retarget; //# sourceMappingURL=TreeAlgorithm.js.map /***/ }), /***/ 94962: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var interfaces_1 = __nccwpck_require__(27305); var TraversalAlgorithm_1 = __nccwpck_require__(80998); /** * Returns the first or last child node, or `null` if there are none. * * @param walker - the `TreeWalker` instance * @param first - `true` to return the first child node, or `false` to * return the last child node. */ function treeWalker_traverseChildren(walker, first) { /** * 1. Let node be walker’s current. * 2. Set node to node’s first child if type is first, and node’s last child * if type is last. * 3. While node is non-null: */ var node = (first ? walker._current._firstChild : walker._current._lastChild); while (node !== null) { /** * 3.1. Let result be the result of filtering node within walker. */ var result = TraversalAlgorithm_1.traversal_filter(walker, node); if (result === interfaces_1.FilterResult.Accept) { /** * 3.2. If result is FILTER_ACCEPT, then set walker’s current to node and * return node. */ walker._current = node; return node; } else if (result === interfaces_1.FilterResult.Skip) { /** * 3.3. If result is FILTER_SKIP, then: * 3.3.1. Let child be node’s first child if type is first, and node’s * last child if type is last. * 3.3.2. If child is non-null, then set node to child and continue. */ var child = (first ? node._firstChild : node._lastChild); if (child !== null) { node = child; continue; } } /** * 3.4. While node is non-null: */ while (node !== null) { /** * 3.4.1. Let sibling be node’s next sibling if type is first, and * node’s previous sibling if type is last. * 3.4.2. If sibling is non-null, then set node to sibling and break. */ var sibling = (first ? node._nextSibling : node._previousSibling); if (sibling !== null) { node = sibling; break; } /** * 3.4.3. Let parent be node’s parent. * 3.4.4. If parent is null, walker’s root, or walker’s current, then * return null. */ var parent = node._parent; if (parent === null || parent === walker._root || parent === walker._current) { return null; } /** * 3.4.5. Set node to parent. */ node = parent; } } /** * 5. Return null */ return null; } exports.treeWalker_traverseChildren = treeWalker_traverseChildren; /** * Returns the next or previous sibling node, or `null` if there are none. * * @param walker - the `TreeWalker` instance * @param next - `true` to return the next sibling node, or `false` to * return the previous sibling node. */ function treeWalker_traverseSiblings(walker, next) { /** * 1. Let node be walker’s current. * 2. If node is root, then return null. * 3. While node is non-null: */ var node = walker._current; if (node === walker._root) return null; while (true) { /** * 3.1. Let sibling be node’s next sibling if type is next, and node’s * previous sibling if type is previous. * 3.2. While sibling is non-null: */ var sibling = (next ? node._nextSibling : node._previousSibling); while (sibling !== null) { /** * 3.2.1. Set node to sibling. * 3.2.2. Let result be the result of filtering node within walker. * 3.2.3. If result is FILTER_ACCEPT, then set walker’s current to node * and return node. */ node = sibling; var result = TraversalAlgorithm_1.traversal_filter(walker, node); if (result === interfaces_1.FilterResult.Accept) { walker._current = node; return node; } /** * 3.2.4. Set sibling to node’s first child if type is next, and node’s * last child if type is previous. * 3.2.5. If result is FILTER_REJECT or sibling is null, then set * sibling to node’s next sibling if type is next, and node’s previous * sibling if type is previous. */ sibling = (next ? node._firstChild : node._lastChild); if (result === interfaces_1.FilterResult.Reject || sibling === null) { sibling = (next ? node._nextSibling : node._previousSibling); } } /** * 3.3. Set node to node’s parent. * 3.4. If node is null or walker’s root, then return null. */ node = node._parent; if (node === null || node === walker._root) { return null; } /** * 3.5. If the return value of filtering node within walker is FILTER_ACCEPT, * then return null. */ if (TraversalAlgorithm_1.traversal_filter(walker, node) === interfaces_1.FilterResult.Accept) { return null; } } } exports.treeWalker_traverseSiblings = treeWalker_traverseSiblings; //# sourceMappingURL=TreeWalkerAlgorithm.js.map /***/ }), /***/ 45457: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); /** * Defines a WebIDL `Const` property on the given object. * * @param o - object on which to add the property * @param name - property name * @param value - property value */ function idl_defineConst(o, name, value) { Object.defineProperty(o, name, { writable: false, enumerable: true, configurable: false, value: value }); } exports.idl_defineConst = idl_defineConst; //# sourceMappingURL=WebIDLAlgorithm.js.map /***/ }), /***/ 57030: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); /** * Determines if the given string is valid for a `"Name"` construct. * * @param name - name string to test */ function xml_isName(name) { for (var i = 0; i < name.length; i++) { var n = name.charCodeAt(i); // NameStartChar if ((n >= 97 && n <= 122) || // [a-z] (n >= 65 && n <= 90) || // [A-Z] n === 58 || n === 95 || // ':' or '_' (n >= 0xC0 && n <= 0xD6) || (n >= 0xD8 && n <= 0xF6) || (n >= 0xF8 && n <= 0x2FF) || (n >= 0x370 && n <= 0x37D) || (n >= 0x37F && n <= 0x1FFF) || (n >= 0x200C && n <= 0x200D) || (n >= 0x2070 && n <= 0x218F) || (n >= 0x2C00 && n <= 0x2FEF) || (n >= 0x3001 && n <= 0xD7FF) || (n >= 0xF900 && n <= 0xFDCF) || (n >= 0xFDF0 && n <= 0xFFFD)) { continue; } else if (i !== 0 && (n === 45 || n === 46 || // '-' or '.' (n >= 48 && n <= 57) || // [0-9] (n === 0xB7) || (n >= 0x0300 && n <= 0x036F) || (n >= 0x203F && n <= 0x2040))) { continue; } if (n >= 0xD800 && n <= 0xDBFF && i < name.length - 1) { var n2 = name.charCodeAt(i + 1); if (n2 >= 0xDC00 && n2 <= 0xDFFF) { n = (n - 0xD800) * 0x400 + n2 - 0xDC00 + 0x10000; i++; if (n >= 0x10000 && n <= 0xEFFFF) { continue; } } } return false; } return true; } exports.xml_isName = xml_isName; /** * Determines if the given string is valid for a `"QName"` construct. * * @param name - name string to test */ function xml_isQName(name) { var colonFound = false; for (var i = 0; i < name.length; i++) { var n = name.charCodeAt(i); // NameStartChar if ((n >= 97 && n <= 122) || // [a-z] (n >= 65 && n <= 90) || // [A-Z] n === 95 || // '_' (n >= 0xC0 && n <= 0xD6) || (n >= 0xD8 && n <= 0xF6) || (n >= 0xF8 && n <= 0x2FF) || (n >= 0x370 && n <= 0x37D) || (n >= 0x37F && n <= 0x1FFF) || (n >= 0x200C && n <= 0x200D) || (n >= 0x2070 && n <= 0x218F) || (n >= 0x2C00 && n <= 0x2FEF) || (n >= 0x3001 && n <= 0xD7FF) || (n >= 0xF900 && n <= 0xFDCF) || (n >= 0xFDF0 && n <= 0xFFFD)) { continue; } else if (i !== 0 && (n === 45 || n === 46 || // '-' or '.' (n >= 48 && n <= 57) || // [0-9] (n === 0xB7) || (n >= 0x0300 && n <= 0x036F) || (n >= 0x203F && n <= 0x2040))) { continue; } else if (i !== 0 && n === 58) { // : if (colonFound) return false; // multiple colons in qname if (i === name.length - 1) return false; // colon at the end of qname colonFound = true; continue; } if (n >= 0xD800 && n <= 0xDBFF && i < name.length - 1) { var n2 = name.charCodeAt(i + 1); if (n2 >= 0xDC00 && n2 <= 0xDFFF) { n = (n - 0xD800) * 0x400 + n2 - 0xDC00 + 0x10000; i++; if (n >= 0x10000 && n <= 0xEFFFF) { continue; } } } return false; } return true; } exports.xml_isQName = xml_isQName; /** * Determines if the given string contains legal characters. * * @param chars - sequence of characters to test */ function xml_isLegalChar(chars) { for (var i = 0; i < chars.length; i++) { var n = chars.charCodeAt(i); // #x9 | #xA | #xD | [#x20-#xD7FF] | [#xE000-#xFFFD] | [#x10000-#x10FFFF] if (n === 0x9 || n === 0xA || n === 0xD || (n >= 0x20 && n <= 0xD7FF) || (n >= 0xE000 && n <= 0xFFFD)) { continue; } if (n >= 0xD800 && n <= 0xDBFF && i < chars.length - 1) { var n2 = chars.charCodeAt(i + 1); if (n2 >= 0xDC00 && n2 <= 0xDFFF) { n = (n - 0xD800) * 0x400 + n2 - 0xDC00 + 0x10000; i++; if (n >= 0x10000 && n <= 0x10FFFF) { continue; } } } return false; } return true; } exports.xml_isLegalChar = xml_isLegalChar; /** * Determines if the given string contains legal characters for a public * identifier. * * @param chars - sequence of characters to test */ function xml_isPubidChar(chars) { for (var i = 0; i < chars.length; i++) { // PubId chars are all in the ASCII range, no need to check surrogates var n = chars.charCodeAt(i); // #x20 | #xD | #xA | [a-zA-Z0-9] | [-'()+,./:=?;!*#@$_%] if ((n >= 97 && n <= 122) || // [a-z] (n >= 65 && n <= 90) || // [A-Z] (n >= 39 && n <= 59) || // ['()*+,-./] | [0-9] | [:;] n === 0x20 || n === 0xD || n === 0xA || // #x20 | #xD | #xA (n >= 35 && n <= 37) || // [#$%] n === 33 || // ! n === 61 || n === 63 || n === 64 || n === 95) { // [=?@_] continue; } else { return false; } } return true; } exports.xml_isPubidChar = xml_isPubidChar; //# sourceMappingURL=XMLAlgorithm.js.map /***/ }), /***/ 61: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; function __export(m) { for (var p in m) if (!exports.hasOwnProperty(p)) exports[p] = m[p]; } Object.defineProperty(exports, "__esModule", ({ value: true })); __export(__nccwpck_require__(32206)); __export(__nccwpck_require__(84309)); __export(__nccwpck_require__(81054)); __export(__nccwpck_require__(19461)); __export(__nccwpck_require__(57339)); __export(__nccwpck_require__(35648)); __export(__nccwpck_require__(12793)); __export(__nccwpck_require__(9628)); __export(__nccwpck_require__(93261)); __export(__nccwpck_require__(51849)); __export(__nccwpck_require__(28217)); __export(__nccwpck_require__(21312)); __export(__nccwpck_require__(45463)); __export(__nccwpck_require__(78157)); __export(__nccwpck_require__(35856)); __export(__nccwpck_require__(74924)); __export(__nccwpck_require__(3973)); __export(__nccwpck_require__(53670)); __export(__nccwpck_require__(2328)); __export(__nccwpck_require__(30457)); __export(__nccwpck_require__(41853)); __export(__nccwpck_require__(68733)); __export(__nccwpck_require__(13512)); __export(__nccwpck_require__(80998)); __export(__nccwpck_require__(16620)); __export(__nccwpck_require__(94962)); __export(__nccwpck_require__(45457)); __export(__nccwpck_require__(57030)); //# sourceMappingURL=index.js.map /***/ }), /***/ 66461: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var algorithm_1 = __nccwpck_require__(61); /** * Represents a controller that allows to abort DOM requests. */ var AbortControllerImpl = /** @class */ (function () { /** * Initializes a new instance of `AbortController`. */ function AbortControllerImpl() { /** * 1. Let signal be a new AbortSignal object. * 2. Let controller be a new AbortController object whose signal is signal. * 3. Return controller. */ this._signal = algorithm_1.create_abortSignal(); } Object.defineProperty(AbortControllerImpl.prototype, "signal", { /** @inheritdoc */ get: function () { return this._signal; }, enumerable: true, configurable: true }); /** @inheritdoc */ AbortControllerImpl.prototype.abort = function () { algorithm_1.abort_signalAbort(this._signal); }; return AbortControllerImpl; }()); exports.AbortControllerImpl = AbortControllerImpl; //# sourceMappingURL=AbortControllerImpl.js.map /***/ }), /***/ 10022: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __extends = (this && this.__extends) || (function () { var extendStatics = function (d, b) { extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; }; return extendStatics(d, b); }; return function (d, b) { extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; })(); Object.defineProperty(exports, "__esModule", ({ value: true })); var EventTargetImpl_1 = __nccwpck_require__(69968); var algorithm_1 = __nccwpck_require__(61); /** * Represents a signal object that communicates with a DOM request and abort * it through an AbortController. */ var AbortSignalImpl = /** @class */ (function (_super) { __extends(AbortSignalImpl, _super); /** * Initializes a new instance of `AbortSignal`. */ function AbortSignalImpl() { var _this = _super.call(this) || this; _this._abortedFlag = false; _this._abortAlgorithms = new Set(); return _this; } Object.defineProperty(AbortSignalImpl.prototype, "aborted", { /** @inheritdoc */ get: function () { return this._abortedFlag; }, enumerable: true, configurable: true }); Object.defineProperty(AbortSignalImpl.prototype, "onabort", { /** @inheritdoc */ get: function () { return algorithm_1.event_getterEventHandlerIDLAttribute(this, "onabort"); }, set: function (val) { algorithm_1.event_setterEventHandlerIDLAttribute(this, "onabort", val); }, enumerable: true, configurable: true }); /** * Creates a new `AbortSignal`. */ AbortSignalImpl._create = function () { return new AbortSignalImpl(); }; return AbortSignalImpl; }(EventTargetImpl_1.EventTargetImpl)); exports.AbortSignalImpl = AbortSignalImpl; //# sourceMappingURL=AbortSignalImpl.js.map /***/ }), /***/ 57126: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); /** * Represents an abstract range with a start and end boundary point. */ var AbstractRangeImpl = /** @class */ (function () { function AbstractRangeImpl() { } Object.defineProperty(AbstractRangeImpl.prototype, "_startNode", { get: function () { return this._start[0]; }, enumerable: true, configurable: true }); Object.defineProperty(AbstractRangeImpl.prototype, "_startOffset", { get: function () { return this._start[1]; }, enumerable: true, configurable: true }); Object.defineProperty(AbstractRangeImpl.prototype, "_endNode", { get: function () { return this._end[0]; }, enumerable: true, configurable: true }); Object.defineProperty(AbstractRangeImpl.prototype, "_endOffset", { get: function () { return this._end[1]; }, enumerable: true, configurable: true }); Object.defineProperty(AbstractRangeImpl.prototype, "_collapsed", { get: function () { return (this._start[0] === this._end[0] && this._start[1] === this._end[1]); }, enumerable: true, configurable: true }); Object.defineProperty(AbstractRangeImpl.prototype, "startContainer", { /** @inheritdoc */ get: function () { return this._startNode; }, enumerable: true, configurable: true }); Object.defineProperty(AbstractRangeImpl.prototype, "startOffset", { /** @inheritdoc */ get: function () { return this._startOffset; }, enumerable: true, configurable: true }); Object.defineProperty(AbstractRangeImpl.prototype, "endContainer", { /** @inheritdoc */ get: function () { return this._endNode; }, enumerable: true, configurable: true }); Object.defineProperty(AbstractRangeImpl.prototype, "endOffset", { /** @inheritdoc */ get: function () { return this._endOffset; }, enumerable: true, configurable: true }); Object.defineProperty(AbstractRangeImpl.prototype, "collapsed", { /** @inheritdoc */ get: function () { return this._collapsed; }, enumerable: true, configurable: true }); return AbstractRangeImpl; }()); exports.AbstractRangeImpl = AbstractRangeImpl; //# sourceMappingURL=AbstractRangeImpl.js.map /***/ }), /***/ 13717: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __extends = (this && this.__extends) || (function () { var extendStatics = function (d, b) { extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; }; return extendStatics(d, b); }; return function (d, b) { extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; })(); Object.defineProperty(exports, "__esModule", ({ value: true })); var interfaces_1 = __nccwpck_require__(27305); var NodeImpl_1 = __nccwpck_require__(91745); var algorithm_1 = __nccwpck_require__(61); var WebIDLAlgorithm_1 = __nccwpck_require__(45457); /** * Represents an attribute of an element node. */ var AttrImpl = /** @class */ (function (_super) { __extends(AttrImpl, _super); /** * Initializes a new instance of `Attr`. * * @param localName - local name */ function AttrImpl(localName) { var _this = _super.call(this) || this; _this._namespace = null; _this._namespacePrefix = null; _this._element = null; _this._value = ''; _this._localName = localName; return _this; } Object.defineProperty(AttrImpl.prototype, "ownerElement", { /** @inheritdoc */ get: function () { return this._element; }, enumerable: true, configurable: true }); Object.defineProperty(AttrImpl.prototype, "namespaceURI", { /** @inheritdoc */ get: function () { return this._namespace; }, enumerable: true, configurable: true }); Object.defineProperty(AttrImpl.prototype, "prefix", { /** @inheritdoc */ get: function () { return this._namespacePrefix; }, enumerable: true, configurable: true }); Object.defineProperty(AttrImpl.prototype, "localName", { /** @inheritdoc */ get: function () { return this._localName; }, enumerable: true, configurable: true }); Object.defineProperty(AttrImpl.prototype, "name", { /** @inheritdoc */ get: function () { return this._qualifiedName; }, enumerable: true, configurable: true }); Object.defineProperty(AttrImpl.prototype, "value", { /** @inheritdoc */ get: function () { return this._value; }, set: function (value) { /** * The value attribute’s setter must set an existing attribute value with * context object and the given value. */ algorithm_1.attr_setAnExistingAttributeValue(this, value); }, enumerable: true, configurable: true }); Object.defineProperty(AttrImpl.prototype, "_qualifiedName", { /** * Returns the qualified name. */ get: function () { /** * An attribute’s qualified name is its local name if its namespace prefix * is null, and its namespace prefix, followed by ":", followed by its * local name, otherwise. */ return (this._namespacePrefix !== null ? this._namespacePrefix + ':' + this._localName : this._localName); }, enumerable: true, configurable: true }); /** * Creates an `Attr`. * * @param document - owner document * @param localName - local name */ AttrImpl._create = function (document, localName) { var node = new AttrImpl(localName); node._nodeDocument = document; return node; }; return AttrImpl; }(NodeImpl_1.NodeImpl)); exports.AttrImpl = AttrImpl; /** * Initialize prototype properties */ WebIDLAlgorithm_1.idl_defineConst(AttrImpl.prototype, "_nodeType", interfaces_1.NodeType.Attribute); WebIDLAlgorithm_1.idl_defineConst(AttrImpl.prototype, "specified", true); //# sourceMappingURL=AttrImpl.js.map /***/ }), /***/ 23977: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __extends = (this && this.__extends) || (function () { var extendStatics = function (d, b) { extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; }; return extendStatics(d, b); }; return function (d, b) { extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; })(); Object.defineProperty(exports, "__esModule", ({ value: true })); var TextImpl_1 = __nccwpck_require__(42191); var interfaces_1 = __nccwpck_require__(27305); var WebIDLAlgorithm_1 = __nccwpck_require__(45457); /** * Represents a CDATA node. */ var CDATASectionImpl = /** @class */ (function (_super) { __extends(CDATASectionImpl, _super); /** * Initializes a new instance of `CDATASection`. * * @param data - node contents */ function CDATASectionImpl(data) { return _super.call(this, data) || this; } /** * Creates a new `CDATASection`. * * @param document - owner document * @param data - node contents */ CDATASectionImpl._create = function (document, data) { if (data === void 0) { data = ''; } var node = new CDATASectionImpl(data); node._nodeDocument = document; return node; }; return CDATASectionImpl; }(TextImpl_1.TextImpl)); exports.CDATASectionImpl = CDATASectionImpl; /** * Initialize prototype properties */ WebIDLAlgorithm_1.idl_defineConst(CDATASectionImpl.prototype, "_nodeType", interfaces_1.NodeType.CData); //# sourceMappingURL=CDATASectionImpl.js.map /***/ }), /***/ 65330: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __extends = (this && this.__extends) || (function () { var extendStatics = function (d, b) { extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; }; return extendStatics(d, b); }; return function (d, b) { extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; })(); Object.defineProperty(exports, "__esModule", ({ value: true })); var NodeImpl_1 = __nccwpck_require__(91745); var algorithm_1 = __nccwpck_require__(61); /** * Represents a generic text node. */ var CharacterDataImpl = /** @class */ (function (_super) { __extends(CharacterDataImpl, _super); /** * Initializes a new instance of `CharacterData`. * * @param data - the text content */ function CharacterDataImpl(data) { var _this = _super.call(this) || this; _this._data = data; return _this; } Object.defineProperty(CharacterDataImpl.prototype, "data", { /** @inheritdoc */ get: function () { return this._data; }, set: function (value) { algorithm_1.characterData_replaceData(this, 0, this._data.length, value); }, enumerable: true, configurable: true }); Object.defineProperty(CharacterDataImpl.prototype, "length", { /** @inheritdoc */ get: function () { return this._data.length; }, enumerable: true, configurable: true }); /** @inheritdoc */ CharacterDataImpl.prototype.substringData = function (offset, count) { /** * The substringData(offset, count) method, when invoked, must return the * result of running substring data with node context object, offset offset, and count count. */ return algorithm_1.characterData_substringData(this, offset, count); }; /** @inheritdoc */ CharacterDataImpl.prototype.appendData = function (data) { /** * The appendData(data) method, when invoked, must replace data with node * context object, offset context object’s length, count 0, and data data. */ return algorithm_1.characterData_replaceData(this, this._data.length, 0, data); }; /** @inheritdoc */ CharacterDataImpl.prototype.insertData = function (offset, data) { /** * The insertData(offset, data) method, when invoked, must replace data with * node context object, offset offset, count 0, and data data. */ algorithm_1.characterData_replaceData(this, offset, 0, data); }; /** @inheritdoc */ CharacterDataImpl.prototype.deleteData = function (offset, count) { /** * The deleteData(offset, count) method, when invoked, must replace data * with node context object, offset offset, count count, and data the * empty string. */ algorithm_1.characterData_replaceData(this, offset, count, ''); }; /** @inheritdoc */ CharacterDataImpl.prototype.replaceData = function (offset, count, data) { /** * The replaceData(offset, count, data) method, when invoked, must replace * data with node context object, offset offset, count count, and data data. */ algorithm_1.characterData_replaceData(this, offset, count, data); }; Object.defineProperty(CharacterDataImpl.prototype, "previousElementSibling", { // MIXIN: NonDocumentTypeChildNode /* istanbul ignore next */ get: function () { throw new Error("Mixin: NonDocumentTypeChildNode not implemented."); }, enumerable: true, configurable: true }); Object.defineProperty(CharacterDataImpl.prototype, "nextElementSibling", { /* istanbul ignore next */ get: function () { throw new Error("Mixin: NonDocumentTypeChildNode not implemented."); }, enumerable: true, configurable: true }); // MIXIN: ChildNode /* istanbul ignore next */ CharacterDataImpl.prototype.before = function () { var nodes = []; for (var _i = 0; _i < arguments.length; _i++) { nodes[_i] = arguments[_i]; } throw new Error("Mixin: ChildNode not implemented."); }; /* istanbul ignore next */ CharacterDataImpl.prototype.after = function () { var nodes = []; for (var _i = 0; _i < arguments.length; _i++) { nodes[_i] = arguments[_i]; } throw new Error("Mixin: ChildNode not implemented."); }; /* istanbul ignore next */ CharacterDataImpl.prototype.replaceWith = function () { var nodes = []; for (var _i = 0; _i < arguments.length; _i++) { nodes[_i] = arguments[_i]; } throw new Error("Mixin: ChildNode not implemented."); }; /* istanbul ignore next */ CharacterDataImpl.prototype.remove = function () { throw new Error("Mixin: ChildNode not implemented."); }; return CharacterDataImpl; }(NodeImpl_1.NodeImpl)); exports.CharacterDataImpl = CharacterDataImpl; //# sourceMappingURL=CharacterDataImpl.js.map /***/ }), /***/ 88264: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var util_1 = __nccwpck_require__(65282); var algorithm_1 = __nccwpck_require__(61); /** * Represents a mixin that extends child nodes that can have siblings * including doctypes. This mixin is implemented by {@link Element}, * {@link CharacterData} and {@link DocumentType}. */ var ChildNodeImpl = /** @class */ (function () { function ChildNodeImpl() { } /** @inheritdoc */ ChildNodeImpl.prototype.before = function () { var nodes = []; for (var _i = 0; _i < arguments.length; _i++) { nodes[_i] = arguments[_i]; } /** * 1. Let parent be context object’s parent. * 2. If parent is null, then return. */ var context = util_1.Cast.asNode(this); var parent = context._parent; if (parent === null) return; /** * 3. Let viablePreviousSibling be context object’s first preceding * sibling not in nodes, and null otherwise. */ var viablePreviousSibling = context._previousSibling; var flag = true; while (flag && viablePreviousSibling) { flag = false; for (var i = 0; i < nodes.length; i++) { var child = nodes[i]; if (child === viablePreviousSibling) { viablePreviousSibling = viablePreviousSibling._previousSibling; flag = true; break; } } } /** * 4. Let node be the result of converting nodes into a node, given nodes * and context object’s node document. */ var node = algorithm_1.parentNode_convertNodesIntoANode(nodes, context._nodeDocument); /** * 5. If viablePreviousSibling is null, set it to parent’s first child, * and to viablePreviousSibling’s next sibling otherwise. */ if (viablePreviousSibling === null) viablePreviousSibling = parent._firstChild; else viablePreviousSibling = viablePreviousSibling._nextSibling; /** * 6. Pre-insert node into parent before viablePreviousSibling. */ algorithm_1.mutation_preInsert(node, parent, viablePreviousSibling); }; /** @inheritdoc */ ChildNodeImpl.prototype.after = function () { var nodes = []; for (var _i = 0; _i < arguments.length; _i++) { nodes[_i] = arguments[_i]; } /** * 1. Let parent be context object’s parent. * 2. If parent is null, then return. */ var context = util_1.Cast.asNode(this); var parent = context._parent; if (!parent) return; /** * 3. Let viableNextSibling be context object’s first following sibling not * in nodes, and null otherwise. */ var viableNextSibling = context._nextSibling; var flag = true; while (flag && viableNextSibling) { flag = false; for (var i = 0; i < nodes.length; i++) { var child = nodes[i]; if (child === viableNextSibling) { viableNextSibling = viableNextSibling._nextSibling; flag = true; break; } } } /** * 4. Let node be the result of converting nodes into a node, given nodes * and context object’s node document. */ var node = algorithm_1.parentNode_convertNodesIntoANode(nodes, context._nodeDocument); /** * 5. Pre-insert node into parent before viableNextSibling. */ algorithm_1.mutation_preInsert(node, parent, viableNextSibling); }; /** @inheritdoc */ ChildNodeImpl.prototype.replaceWith = function () { var nodes = []; for (var _i = 0; _i < arguments.length; _i++) { nodes[_i] = arguments[_i]; } /** * 1. Let parent be context object’s parent. * 2. If parent is null, then return. */ var context = util_1.Cast.asNode(this); var parent = context._parent; if (!parent) return; /** * 3. Let viableNextSibling be context object’s first following sibling not * in nodes, and null otherwise. */ var viableNextSibling = context._nextSibling; var flag = true; while (flag && viableNextSibling) { flag = false; for (var i = 0; i < nodes.length; i++) { var child = nodes[i]; if (child === viableNextSibling) { viableNextSibling = viableNextSibling._nextSibling; flag = true; break; } } } /** * 4. Let node be the result of converting nodes into a node, given nodes * and context object’s node document. */ var node = algorithm_1.parentNode_convertNodesIntoANode(nodes, context._nodeDocument); /** * 5. If context object’s parent is parent, replace the context object with * node within parent. * _Note:_ Context object could have been inserted into node. * 6. Otherwise, pre-insert node into parent before viableNextSibling. */ if (context._parent === parent) algorithm_1.mutation_replace(context, node, parent); else algorithm_1.mutation_preInsert(node, parent, viableNextSibling); }; /** @inheritdoc */ ChildNodeImpl.prototype.remove = function () { /** * 1. If context object’s parent is null, then return. * 2. Remove the context object from context object’s parent. */ var context = util_1.Cast.asNode(this); var parent = context._parent; if (!parent) return; algorithm_1.mutation_remove(context, parent); }; return ChildNodeImpl; }()); exports.ChildNodeImpl = ChildNodeImpl; //# sourceMappingURL=ChildNodeImpl.js.map /***/ }), /***/ 20930: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __extends = (this && this.__extends) || (function () { var extendStatics = function (d, b) { extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; }; return extendStatics(d, b); }; return function (d, b) { extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; })(); Object.defineProperty(exports, "__esModule", ({ value: true })); var interfaces_1 = __nccwpck_require__(27305); var CharacterDataImpl_1 = __nccwpck_require__(65330); var WebIDLAlgorithm_1 = __nccwpck_require__(45457); /** * Represents a comment node. */ var CommentImpl = /** @class */ (function (_super) { __extends(CommentImpl, _super); /** * Initializes a new instance of `Comment`. * * @param data - the text content */ function CommentImpl(data) { if (data === void 0) { data = ''; } return _super.call(this, data) || this; } /** * Creates a new `Comment`. * * @param document - owner document * @param data - node contents */ CommentImpl._create = function (document, data) { if (data === void 0) { data = ''; } var node = new CommentImpl(data); node._nodeDocument = document; return node; }; return CommentImpl; }(CharacterDataImpl_1.CharacterDataImpl)); exports.CommentImpl = CommentImpl; /** * Initialize prototype properties */ WebIDLAlgorithm_1.idl_defineConst(CommentImpl.prototype, "_nodeType", interfaces_1.NodeType.Comment); //# sourceMappingURL=CommentImpl.js.map /***/ }), /***/ 59857: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __extends = (this && this.__extends) || (function () { var extendStatics = function (d, b) { extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; }; return extendStatics(d, b); }; return function (d, b) { extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; })(); Object.defineProperty(exports, "__esModule", ({ value: true })); var EventImpl_1 = __nccwpck_require__(38245); var algorithm_1 = __nccwpck_require__(61); /** * Represents and event that carries custom data. */ var CustomEventImpl = /** @class */ (function (_super) { __extends(CustomEventImpl, _super); /** * Initializes a new instance of `CustomEvent`. */ function CustomEventImpl(type, eventInit) { var _this = _super.call(this, type, eventInit) || this; _this._detail = null; _this._detail = (eventInit && eventInit.detail) || null; return _this; } Object.defineProperty(CustomEventImpl.prototype, "detail", { /** @inheritdoc */ get: function () { return this._detail; }, enumerable: true, configurable: true }); /** @inheritdoc */ CustomEventImpl.prototype.initCustomEvent = function (type, bubbles, cancelable, detail) { if (bubbles === void 0) { bubbles = false; } if (cancelable === void 0) { cancelable = false; } if (detail === void 0) { detail = null; } /** * 1. If the context object’s dispatch flag is set, then return. */ if (this._dispatchFlag) return; /** * 2. Initialize the context object with type, bubbles, and cancelable. */ algorithm_1.event_initialize(this, type, bubbles, cancelable); /** * 3. Set the context object’s detail attribute to detail. */ this._detail = detail; }; return CustomEventImpl; }(EventImpl_1.EventImpl)); exports.CustomEventImpl = CustomEventImpl; //# sourceMappingURL=CustomEventImpl.js.map /***/ }), /***/ 13166: /***/ (function(__unused_webpack_module, exports) { "use strict"; var __extends = (this && this.__extends) || (function () { var extendStatics = function (d, b) { extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; }; return extendStatics(d, b); }; return function (d, b) { extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; })(); Object.defineProperty(exports, "__esModule", ({ value: true })); /** * Represents the base class of `Error` objects used by this module. */ var DOMException = /** @class */ (function (_super) { __extends(DOMException, _super); /** * * @param name - message name * @param message - error message */ function DOMException(name, message) { if (message === void 0) { message = ""; } var _this = _super.call(this, message) || this; _this.name = name; return _this; } return DOMException; }(Error)); exports.DOMException = DOMException; var DOMStringSizeError = /** @class */ (function (_super) { __extends(DOMStringSizeError, _super); /** * @param message - error message */ function DOMStringSizeError(message) { if (message === void 0) { message = ""; } return _super.call(this, "DOMStringSizeError", message) || this; } return DOMStringSizeError; }(DOMException)); exports.DOMStringSizeError = DOMStringSizeError; var WrongDocumentError = /** @class */ (function (_super) { __extends(WrongDocumentError, _super); /** * @param message - error message */ function WrongDocumentError(message) { if (message === void 0) { message = ""; } return _super.call(this, "WrongDocumentError", "The object is in the wrong document. " + message) || this; } return WrongDocumentError; }(DOMException)); exports.WrongDocumentError = WrongDocumentError; var NoDataAllowedError = /** @class */ (function (_super) { __extends(NoDataAllowedError, _super); /** * @param message - error message */ function NoDataAllowedError(message) { if (message === void 0) { message = ""; } return _super.call(this, "NoDataAllowedError", message) || this; } return NoDataAllowedError; }(DOMException)); exports.NoDataAllowedError = NoDataAllowedError; var NoModificationAllowedError = /** @class */ (function (_super) { __extends(NoModificationAllowedError, _super); /** * @param message - error message */ function NoModificationAllowedError(message) { if (message === void 0) { message = ""; } return _super.call(this, "NoModificationAllowedError", "The object can not be modified. " + message) || this; } return NoModificationAllowedError; }(DOMException)); exports.NoModificationAllowedError = NoModificationAllowedError; var NotSupportedError = /** @class */ (function (_super) { __extends(NotSupportedError, _super); /** * @param message - error message */ function NotSupportedError(message) { if (message === void 0) { message = ""; } return _super.call(this, "NotSupportedError", "The operation is not supported. " + message) || this; } return NotSupportedError; }(DOMException)); exports.NotSupportedError = NotSupportedError; var InUseAttributeError = /** @class */ (function (_super) { __extends(InUseAttributeError, _super); /** * @param message - error message */ function InUseAttributeError(message) { if (message === void 0) { message = ""; } return _super.call(this, "InUseAttributeError", message) || this; } return InUseAttributeError; }(DOMException)); exports.InUseAttributeError = InUseAttributeError; var InvalidStateError = /** @class */ (function (_super) { __extends(InvalidStateError, _super); /** * @param message - error message */ function InvalidStateError(message) { if (message === void 0) { message = ""; } return _super.call(this, "InvalidStateError", "The object is in an invalid state. " + message) || this; } return InvalidStateError; }(DOMException)); exports.InvalidStateError = InvalidStateError; var InvalidModificationError = /** @class */ (function (_super) { __extends(InvalidModificationError, _super); /** * @param message - error message */ function InvalidModificationError(message) { if (message === void 0) { message = ""; } return _super.call(this, "InvalidModificationError", "The object can not be modified in this way. " + message) || this; } return InvalidModificationError; }(DOMException)); exports.InvalidModificationError = InvalidModificationError; var NamespaceError = /** @class */ (function (_super) { __extends(NamespaceError, _super); /** * @param message - error message */ function NamespaceError(message) { if (message === void 0) { message = ""; } return _super.call(this, "NamespaceError", "The operation is not allowed by Namespaces in XML. [XMLNS] " + message) || this; } return NamespaceError; }(DOMException)); exports.NamespaceError = NamespaceError; var InvalidAccessError = /** @class */ (function (_super) { __extends(InvalidAccessError, _super); /** * @param message - error message */ function InvalidAccessError(message) { if (message === void 0) { message = ""; } return _super.call(this, "InvalidAccessError", "The object does not support the operation or argument. " + message) || this; } return InvalidAccessError; }(DOMException)); exports.InvalidAccessError = InvalidAccessError; var ValidationError = /** @class */ (function (_super) { __extends(ValidationError, _super); /** * @param message - error message */ function ValidationError(message) { if (message === void 0) { message = ""; } return _super.call(this, "ValidationError", message) || this; } return ValidationError; }(DOMException)); exports.ValidationError = ValidationError; var TypeMismatchError = /** @class */ (function (_super) { __extends(TypeMismatchError, _super); /** * @param message - error message */ function TypeMismatchError(message) { if (message === void 0) { message = ""; } return _super.call(this, "TypeMismatchError", message) || this; } return TypeMismatchError; }(DOMException)); exports.TypeMismatchError = TypeMismatchError; var SecurityError = /** @class */ (function (_super) { __extends(SecurityError, _super); /** * @param message - error message */ function SecurityError(message) { if (message === void 0) { message = ""; } return _super.call(this, "SecurityError", "The operation is insecure. " + message) || this; } return SecurityError; }(DOMException)); exports.SecurityError = SecurityError; var NetworkError = /** @class */ (function (_super) { __extends(NetworkError, _super); /** * @param message - error message */ function NetworkError(message) { if (message === void 0) { message = ""; } return _super.call(this, "NetworkError", "A network error occurred. " + message) || this; } return NetworkError; }(DOMException)); exports.NetworkError = NetworkError; var AbortError = /** @class */ (function (_super) { __extends(AbortError, _super); /** * @param message - error message */ function AbortError(message) { if (message === void 0) { message = ""; } return _super.call(this, "AbortError", "The operation was aborted. " + message) || this; } return AbortError; }(DOMException)); exports.AbortError = AbortError; var URLMismatchError = /** @class */ (function (_super) { __extends(URLMismatchError, _super); /** * @param message - error message */ function URLMismatchError(message) { if (message === void 0) { message = ""; } return _super.call(this, "URLMismatchError", "The given URL does not match another URL. " + message) || this; } return URLMismatchError; }(DOMException)); exports.URLMismatchError = URLMismatchError; var QuotaExceededError = /** @class */ (function (_super) { __extends(QuotaExceededError, _super); /** * @param message - error message */ function QuotaExceededError(message) { if (message === void 0) { message = ""; } return _super.call(this, "QuotaExceededError", "The quota has been exceeded. " + message) || this; } return QuotaExceededError; }(DOMException)); exports.QuotaExceededError = QuotaExceededError; var TimeoutError = /** @class */ (function (_super) { __extends(TimeoutError, _super); /** * @param message - error message */ function TimeoutError(message) { if (message === void 0) { message = ""; } return _super.call(this, "TimeoutError", "The operation timed out. " + message) || this; } return TimeoutError; }(DOMException)); exports.TimeoutError = TimeoutError; var InvalidNodeTypeError = /** @class */ (function (_super) { __extends(InvalidNodeTypeError, _super); /** * @param message - error message */ function InvalidNodeTypeError(message) { if (message === void 0) { message = ""; } return _super.call(this, "InvalidNodeTypeError", "The supplied node is incorrect or has an incorrect ancestor for this operation. " + message) || this; } return InvalidNodeTypeError; }(DOMException)); exports.InvalidNodeTypeError = InvalidNodeTypeError; var DataCloneError = /** @class */ (function (_super) { __extends(DataCloneError, _super); /** * @param message - error message */ function DataCloneError(message) { if (message === void 0) { message = ""; } return _super.call(this, "DataCloneError", "The object can not be cloned. " + message) || this; } return DataCloneError; }(DOMException)); exports.DataCloneError = DataCloneError; var NotImplementedError = /** @class */ (function (_super) { __extends(NotImplementedError, _super); /** * @param message - error message */ function NotImplementedError(message) { if (message === void 0) { message = ""; } return _super.call(this, "NotImplementedError", "The DOM method is not implemented by this module. " + message) || this; } return NotImplementedError; }(DOMException)); exports.NotImplementedError = NotImplementedError; var HierarchyRequestError = /** @class */ (function (_super) { __extends(HierarchyRequestError, _super); /** * @param message - error message */ function HierarchyRequestError(message) { if (message === void 0) { message = ""; } return _super.call(this, "HierarchyRequestError", "The operation would yield an incorrect node tree. " + message) || this; } return HierarchyRequestError; }(DOMException)); exports.HierarchyRequestError = HierarchyRequestError; var NotFoundError = /** @class */ (function (_super) { __extends(NotFoundError, _super); /** * @param message - error message */ function NotFoundError(message) { if (message === void 0) { message = ""; } return _super.call(this, "NotFoundError", "The object can not be found here. " + message) || this; } return NotFoundError; }(DOMException)); exports.NotFoundError = NotFoundError; var IndexSizeError = /** @class */ (function (_super) { __extends(IndexSizeError, _super); /** * @param message - error message */ function IndexSizeError(message) { if (message === void 0) { message = ""; } return _super.call(this, "IndexSizeError", "The index is not in the allowed range. " + message) || this; } return IndexSizeError; }(DOMException)); exports.IndexSizeError = IndexSizeError; var SyntaxError = /** @class */ (function (_super) { __extends(SyntaxError, _super); /** * @param message - error message */ function SyntaxError(message) { if (message === void 0) { message = ""; } return _super.call(this, "SyntaxError", "The string did not match the expected pattern. " + message) || this; } return SyntaxError; }(DOMException)); exports.SyntaxError = SyntaxError; var InvalidCharacterError = /** @class */ (function (_super) { __extends(InvalidCharacterError, _super); /** * @param message - error message */ function InvalidCharacterError(message) { if (message === void 0) { message = ""; } return _super.call(this, "InvalidCharacterError", "The string contains invalid characters. " + message) || this; } return InvalidCharacterError; }(DOMException)); exports.InvalidCharacterError = InvalidCharacterError; //# sourceMappingURL=DOMException.js.map /***/ }), /***/ 14177: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var util_1 = __nccwpck_require__(76195); var CreateAlgorithm_1 = __nccwpck_require__(57339); /** * Represents an object implementing DOM algorithms. */ var DOMImpl = /** @class */ (function () { /** * Initializes a new instance of `DOM`. */ function DOMImpl() { this._features = { mutationObservers: true, customElements: true, slots: true, steps: true }; this._window = null; this._compareCache = new util_1.CompareCache(); this._rangeList = new util_1.FixedSizeSet(); } /** * Sets DOM algorithm features. * * @param features - DOM features supported by algorithms. All features are * enabled by default unless explicity disabled. */ DOMImpl.prototype.setFeatures = function (features) { if (features === undefined) features = true; if (util_1.isObject(features)) { for (var key in features) { this._features[key] = features[key] || false; } } else { // enable/disable all features for (var key in this._features) { this._features[key] = features; } } }; Object.defineProperty(DOMImpl.prototype, "features", { /** * Gets DOM algorithm features. */ get: function () { return this._features; }, enumerable: true, configurable: true }); Object.defineProperty(DOMImpl.prototype, "window", { /** * Gets the DOM window. */ get: function () { if (this._window === null) { this._window = CreateAlgorithm_1.create_window(); } return this._window; }, enumerable: true, configurable: true }); Object.defineProperty(DOMImpl.prototype, "compareCache", { /** * Gets the global node compare cache. */ get: function () { return this._compareCache; }, enumerable: true, configurable: true }); Object.defineProperty(DOMImpl.prototype, "rangeList", { /** * Gets the global range list. */ get: function () { return this._rangeList; }, enumerable: true, configurable: true }); Object.defineProperty(DOMImpl, "instance", { /** * Returns the instance of `DOM`. */ get: function () { if (!DOMImpl._instance) { DOMImpl._instance = new DOMImpl(); } return DOMImpl._instance; }, enumerable: true, configurable: true }); return DOMImpl; }()); /** * Represents an object implementing DOM algorithms. */ exports.dom = DOMImpl.instance; //# sourceMappingURL=DOMImpl.js.map /***/ }), /***/ 42197: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var DOMImpl_1 = __nccwpck_require__(14177); var infra_1 = __nccwpck_require__(84251); var algorithm_1 = __nccwpck_require__(61); var WebIDLAlgorithm_1 = __nccwpck_require__(45457); /** * Represents an object providing methods which are not dependent on * any particular document. */ var DOMImplementationImpl = /** @class */ (function () { /** * Initializes a new instance of `DOMImplementation`. * * @param document - the associated document */ function DOMImplementationImpl(document) { this._associatedDocument = document || DOMImpl_1.dom.window.document; } /** @inheritdoc */ DOMImplementationImpl.prototype.createDocumentType = function (qualifiedName, publicId, systemId) { /** * 1. Validate qualifiedName. * 2. Return a new doctype, with qualifiedName as its name, publicId as its * public ID, and systemId as its system ID, and with its node document set * to the associated document of the context object. */ algorithm_1.namespace_validate(qualifiedName); return algorithm_1.create_documentType(this._associatedDocument, qualifiedName, publicId, systemId); }; /** @inheritdoc */ DOMImplementationImpl.prototype.createDocument = function (namespace, qualifiedName, doctype) { if (doctype === void 0) { doctype = null; } /** * 1. Let document be a new XMLDocument. */ var document = algorithm_1.create_xmlDocument(); /** * 2. Let element be null. * 3. If qualifiedName is not the empty string, then set element to * the result of running the internal createElementNS steps, given document, * namespace, qualifiedName, and an empty dictionary. */ var element = null; if (qualifiedName) { element = algorithm_1.document_internalCreateElementNS(document, namespace, qualifiedName); } /** * 4. If doctype is non-null, append doctype to document. * 5. If element is non-null, append element to document. */ if (doctype) document.appendChild(doctype); if (element) document.appendChild(element); /** * 6. document’s origin is context object’s associated document’s origin. */ document._origin = this._associatedDocument._origin; /** * 7. document’s content type is determined by namespace: * - HTML namespace * application/xhtml+xml * - SVG namespace * image/svg+xml * - Any other namespace * application/xml */ if (namespace === infra_1.namespace.HTML) document._contentType = "application/xhtml+xml"; else if (namespace === infra_1.namespace.SVG) document._contentType = "image/svg+xml"; else document._contentType = "application/xml"; /** * 8. Return document. */ return document; }; /** @inheritdoc */ DOMImplementationImpl.prototype.createHTMLDocument = function (title) { /** * 1. Let doc be a new document that is an HTML document. * 2. Set doc’s content type to "text/html". */ var doc = algorithm_1.create_document(); doc._type = "html"; doc._contentType = "text/html"; /** * 3. Append a new doctype, with "html" as its name and with its node * document set to doc, to doc. */ doc.appendChild(algorithm_1.create_documentType(doc, "html", "", "")); /** * 4. Append the result of creating an element given doc, html, and the * HTML namespace, to doc. */ var htmlElement = algorithm_1.element_createAnElement(doc, "html", infra_1.namespace.HTML); doc.appendChild(htmlElement); /** * 5. Append the result of creating an element given doc, head, and the * HTML namespace, to the html element created earlier. */ var headElement = algorithm_1.element_createAnElement(doc, "head", infra_1.namespace.HTML); htmlElement.appendChild(headElement); /** * 6. If title is given: * 6.1. Append the result of creating an element given doc, title, and * the HTML namespace, to the head element created earlier. * 6.2. Append a new Text node, with its data set to title (which could * be the empty string) and its node document set to doc, to the title * element created earlier. */ if (title !== undefined) { var titleElement = algorithm_1.element_createAnElement(doc, "title", infra_1.namespace.HTML); headElement.appendChild(titleElement); var textElement = algorithm_1.create_text(doc, title); titleElement.appendChild(textElement); } /** * 7. Append the result of creating an element given doc, body, and the * HTML namespace, to the html element created earlier. */ var bodyElement = algorithm_1.element_createAnElement(doc, "body", infra_1.namespace.HTML); htmlElement.appendChild(bodyElement); /** * 8. doc’s origin is context object’s associated document’s origin. */ doc._origin = this._associatedDocument._origin; /** * 9. Return doc. */ return doc; }; /** @inheritdoc */ DOMImplementationImpl.prototype.hasFeature = function () { return true; }; /** * Creates a new `DOMImplementation`. * * @param document - owner document */ DOMImplementationImpl._create = function (document) { return new DOMImplementationImpl(document); }; return DOMImplementationImpl; }()); exports.DOMImplementationImpl = DOMImplementationImpl; WebIDLAlgorithm_1.idl_defineConst(DOMImplementationImpl.prototype, "_ID", "@oozcitak/dom"); //# sourceMappingURL=DOMImplementationImpl.js.map /***/ }), /***/ 65096: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; Object.defineProperty(exports, "__esModule", ({ value: true })); var DOMImpl_1 = __nccwpck_require__(14177); var DOMException_1 = __nccwpck_require__(13166); var infra_1 = __nccwpck_require__(84251); var algorithm_1 = __nccwpck_require__(61); /** * Represents a token set. */ var DOMTokenListImpl = /** @class */ (function () { /** * Initializes a new instance of `DOMTokenList`. * * @param element - associated element * @param attribute - associated attribute */ function DOMTokenListImpl(element, attribute) { /** * 1. Let element be associated element. * 2. Let localName be associated attribute’s local name. * 3. Let value be the result of getting an attribute value given element * and localName. * 4. Run the attribute change steps for element, localName, value, value, * and null. */ this._element = element; this._attribute = attribute; this._tokenSet = new Set(); var localName = attribute._localName; var value = algorithm_1.element_getAnAttributeValue(element, localName); // define a closure to be called when the associated attribute's value changes var thisObj = this; function updateTokenSet(element, localName, oldValue, value, namespace) { /** * 1. If localName is associated attribute’s local name, namespace is null, * and value is null, then empty token set. * 2. Otherwise, if localName is associated attribute’s local name, * namespace is null, then set token set to value, parsed. */ if (localName === thisObj._attribute._localName && namespace === null) { if (!value) thisObj._tokenSet.clear(); else thisObj._tokenSet = algorithm_1.orderedSet_parse(value); } } // add the closure to the associated element's attribute change steps this._element._attributeChangeSteps.push(updateTokenSet); if (DOMImpl_1.dom.features.steps) { algorithm_1.dom_runAttributeChangeSteps(element, localName, value, value, null); } } Object.defineProperty(DOMTokenListImpl.prototype, "length", { /** @inheritdoc */ get: function () { /** * The length attribute' getter must return context object’s token set’s * size. */ return this._tokenSet.size; }, enumerable: true, configurable: true }); /** @inheritdoc */ DOMTokenListImpl.prototype.item = function (index) { var e_1, _a; /** * 1. If index is equal to or greater than context object’s token set’s * size, then return null. * 2. Return context object’s token set[index]. */ var i = 0; try { for (var _b = __values(this._tokenSet), _c = _b.next(); !_c.done; _c = _b.next()) { var token = _c.value; if (i === index) return token; i++; } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_1) throw e_1.error; } } return null; }; /** @inheritdoc */ DOMTokenListImpl.prototype.contains = function (token) { /** * The contains(token) method, when invoked, must return true if context * object’s token set[token] exists, and false otherwise. */ return this._tokenSet.has(token); }; /** @inheritdoc */ DOMTokenListImpl.prototype.add = function () { var e_2, _a; var tokens = []; for (var _i = 0; _i < arguments.length; _i++) { tokens[_i] = arguments[_i]; } try { /** * 1. For each token in tokens: * 1.1. If token is the empty string, then throw a "SyntaxError" * DOMException. * 1.2. If token contains any ASCII whitespace, then throw an * "InvalidCharacterError" DOMException. * 2. For each token in tokens, append token to context object’s token set. * 3. Run the update steps. */ for (var tokens_1 = __values(tokens), tokens_1_1 = tokens_1.next(); !tokens_1_1.done; tokens_1_1 = tokens_1.next()) { var token = tokens_1_1.value; if (token === '') { throw new DOMException_1.SyntaxError("Cannot add an empty token."); } else if (infra_1.codePoint.ASCIIWhiteSpace.test(token)) { throw new DOMException_1.InvalidCharacterError("Token cannot contain whitespace."); } else { this._tokenSet.add(token); } } } catch (e_2_1) { e_2 = { error: e_2_1 }; } finally { try { if (tokens_1_1 && !tokens_1_1.done && (_a = tokens_1.return)) _a.call(tokens_1); } finally { if (e_2) throw e_2.error; } } algorithm_1.tokenList_updateSteps(this); }; /** @inheritdoc */ DOMTokenListImpl.prototype.remove = function () { var e_3, _a; var tokens = []; for (var _i = 0; _i < arguments.length; _i++) { tokens[_i] = arguments[_i]; } try { /** * 1. For each token in tokens: * 1.1. If token is the empty string, then throw a "SyntaxError" * DOMException. * 1.2. If token contains any ASCII whitespace, then throw an * "InvalidCharacterError" DOMException. * 2. For each token in tokens, remove token from context object’s token set. * 3. Run the update steps. */ for (var tokens_2 = __values(tokens), tokens_2_1 = tokens_2.next(); !tokens_2_1.done; tokens_2_1 = tokens_2.next()) { var token = tokens_2_1.value; if (token === '') { throw new DOMException_1.SyntaxError("Cannot remove an empty token."); } else if (infra_1.codePoint.ASCIIWhiteSpace.test(token)) { throw new DOMException_1.InvalidCharacterError("Token cannot contain whitespace."); } else { this._tokenSet.delete(token); } } } catch (e_3_1) { e_3 = { error: e_3_1 }; } finally { try { if (tokens_2_1 && !tokens_2_1.done && (_a = tokens_2.return)) _a.call(tokens_2); } finally { if (e_3) throw e_3.error; } } algorithm_1.tokenList_updateSteps(this); }; /** @inheritdoc */ DOMTokenListImpl.prototype.toggle = function (token, force) { if (force === void 0) { force = undefined; } /** * 1. If token is the empty string, then throw a "SyntaxError" DOMException. * 2. If token contains any ASCII whitespace, then throw an * "InvalidCharacterError" DOMException. */ if (token === '') { throw new DOMException_1.SyntaxError("Cannot toggle an empty token."); } else if (infra_1.codePoint.ASCIIWhiteSpace.test(token)) { throw new DOMException_1.InvalidCharacterError("Token cannot contain whitespace."); } /** * 3. If context object’s token set[token] exists, then: */ if (this._tokenSet.has(token)) { /** * 3.1. If force is either not given or is false, then remove token from * context object’s token set, run the update steps and return false. * 3.2. Return true. */ if (force === undefined || force === false) { this._tokenSet.delete(token); algorithm_1.tokenList_updateSteps(this); return false; } return true; } /** * 4. Otherwise, if force not given or is true, append token to context * object’s token set, run the update steps, and return true. */ if (force === undefined || force === true) { this._tokenSet.add(token); algorithm_1.tokenList_updateSteps(this); return true; } /** * 5. Return false. */ return false; }; /** @inheritdoc */ DOMTokenListImpl.prototype.replace = function (token, newToken) { /** * 1. If either token or newToken is the empty string, then throw a * "SyntaxError" DOMException. * 2. If either token or newToken contains any ASCII whitespace, then throw * an "InvalidCharacterError" DOMException. */ if (token === '' || newToken === '') { throw new DOMException_1.SyntaxError("Cannot replace an empty token."); } else if (infra_1.codePoint.ASCIIWhiteSpace.test(token) || infra_1.codePoint.ASCIIWhiteSpace.test(newToken)) { throw new DOMException_1.InvalidCharacterError("Token cannot contain whitespace."); } /** * 3. If context object’s token set does not contain token, then return * false. */ if (!this._tokenSet.has(token)) return false; /** * 4. Replace token in context object’s token set with newToken. * 5. Run the update steps. * 6. Return true. */ infra_1.set.replace(this._tokenSet, token, newToken); algorithm_1.tokenList_updateSteps(this); return true; }; /** @inheritdoc */ DOMTokenListImpl.prototype.supports = function (token) { /** * 1. Let result be the return value of validation steps called with token. * 2. Return result. */ return algorithm_1.tokenList_validationSteps(this, token); }; Object.defineProperty(DOMTokenListImpl.prototype, "value", { /** @inheritdoc */ get: function () { /** * The value attribute must return the result of running context object’s * serialize steps. */ return algorithm_1.tokenList_serializeSteps(this); }, set: function (value) { /** * Setting the value attribute must set an attribute value for the * associated element using associated attribute’s local name and the given * value. */ algorithm_1.element_setAnAttributeValue(this._element, this._attribute._localName, value); }, enumerable: true, configurable: true }); /** * Returns an iterator for the token set. */ DOMTokenListImpl.prototype[Symbol.iterator] = function () { var it = this._tokenSet[Symbol.iterator](); return { next: function () { return it.next(); } }; }; /** * Creates a new `DOMTokenList`. * * @param element - associated element * @param attribute - associated attribute */ DOMTokenListImpl._create = function (element, attribute) { return new DOMTokenListImpl(element, attribute); }; return DOMTokenListImpl; }()); exports.DOMTokenListImpl = DOMTokenListImpl; //# sourceMappingURL=DOMTokenListImpl.js.map /***/ }), /***/ 12585: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __extends = (this && this.__extends) || (function () { var extendStatics = function (d, b) { extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; }; return extendStatics(d, b); }; return function (d, b) { extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; })(); Object.defineProperty(exports, "__esModule", ({ value: true })); var interfaces_1 = __nccwpck_require__(27305); var NodeImpl_1 = __nccwpck_require__(91745); var WebIDLAlgorithm_1 = __nccwpck_require__(45457); /** * Represents a document fragment in the XML tree. */ var DocumentFragmentImpl = /** @class */ (function (_super) { __extends(DocumentFragmentImpl, _super); /** * Initializes a new instance of `DocumentFragment`. * * @param host - shadow root's host element */ function DocumentFragmentImpl(host) { if (host === void 0) { host = null; } var _this = _super.call(this) || this; _this._children = new Set(); _this._host = host; return _this; } // MIXIN: NonElementParentNode /* istanbul ignore next */ DocumentFragmentImpl.prototype.getElementById = function (elementId) { throw new Error("Mixin: NonElementParentNode not implemented."); }; Object.defineProperty(DocumentFragmentImpl.prototype, "children", { // MIXIN: ParentNode /* istanbul ignore next */ get: function () { throw new Error("Mixin: ParentNode not implemented."); }, enumerable: true, configurable: true }); Object.defineProperty(DocumentFragmentImpl.prototype, "firstElementChild", { /* istanbul ignore next */ get: function () { throw new Error("Mixin: ParentNode not implemented."); }, enumerable: true, configurable: true }); Object.defineProperty(DocumentFragmentImpl.prototype, "lastElementChild", { /* istanbul ignore next */ get: function () { throw new Error("Mixin: ParentNode not implemented."); }, enumerable: true, configurable: true }); Object.defineProperty(DocumentFragmentImpl.prototype, "childElementCount", { /* istanbul ignore next */ get: function () { throw new Error("Mixin: ParentNode not implemented."); }, enumerable: true, configurable: true }); /* istanbul ignore next */ DocumentFragmentImpl.prototype.prepend = function () { var nodes = []; for (var _i = 0; _i < arguments.length; _i++) { nodes[_i] = arguments[_i]; } throw new Error("Mixin: ParentNode not implemented."); }; /* istanbul ignore next */ DocumentFragmentImpl.prototype.append = function () { var nodes = []; for (var _i = 0; _i < arguments.length; _i++) { nodes[_i] = arguments[_i]; } throw new Error("Mixin: ParentNode not implemented."); }; /* istanbul ignore next */ DocumentFragmentImpl.prototype.querySelector = function (selectors) { throw new Error("Mixin: ParentNode not implemented."); }; /* istanbul ignore next */ DocumentFragmentImpl.prototype.querySelectorAll = function (selectors) { throw new Error("Mixin: ParentNode not implemented."); }; /** * Creates a new `DocumentFragment`. * * @param document - owner document * @param host - shadow root's host element */ DocumentFragmentImpl._create = function (document, host) { if (host === void 0) { host = null; } var node = new DocumentFragmentImpl(host); node._nodeDocument = document; return node; }; return DocumentFragmentImpl; }(NodeImpl_1.NodeImpl)); exports.DocumentFragmentImpl = DocumentFragmentImpl; /** * Initialize prototype properties */ WebIDLAlgorithm_1.idl_defineConst(DocumentFragmentImpl.prototype, "_nodeType", interfaces_1.NodeType.DocumentFragment); //# sourceMappingURL=DocumentFragmentImpl.js.map /***/ }), /***/ 14333: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __extends = (this && this.__extends) || (function () { var extendStatics = function (d, b) { extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; }; return extendStatics(d, b); }; return function (d, b) { extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; })(); var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; var __read = (this && this.__read) || function (o, n) { var m = typeof Symbol === "function" && o[Symbol.iterator]; if (!m) return o; var i = m.call(o), r, ar = [], e; try { while ((n === void 0 || n-- > 0) && !(r = i.next()).done) ar.push(r.value); } catch (error) { e = { error: error }; } finally { try { if (r && !r.done && (m = i["return"])) m.call(i); } finally { if (e) throw e.error; } } return ar; }; Object.defineProperty(exports, "__esModule", ({ value: true })); var DOMImpl_1 = __nccwpck_require__(14177); var interfaces_1 = __nccwpck_require__(27305); var DOMException_1 = __nccwpck_require__(13166); var NodeImpl_1 = __nccwpck_require__(91745); var util_1 = __nccwpck_require__(65282); var util_2 = __nccwpck_require__(76195); var infra_1 = __nccwpck_require__(84251); var URLAlgorithm_1 = __nccwpck_require__(53568); var algorithm_1 = __nccwpck_require__(61); var WebIDLAlgorithm_1 = __nccwpck_require__(45457); /** * Represents a document node. */ var DocumentImpl = /** @class */ (function (_super) { __extends(DocumentImpl, _super); /** * Initializes a new instance of `Document`. */ function DocumentImpl() { var _this = _super.call(this) || this; _this._children = new Set(); _this._encoding = { name: "UTF-8", labels: ["unicode-1-1-utf-8", "utf-8", "utf8"] }; _this._contentType = 'application/xml'; _this._URL = { scheme: "about", username: "", password: "", host: null, port: null, path: ["blank"], query: null, fragment: null, _cannotBeABaseURLFlag: true, _blobURLEntry: null }; _this._origin = null; _this._type = "xml"; _this._mode = "no-quirks"; _this._documentElement = null; _this._hasNamespaces = false; _this._nodeDocumentOverwrite = null; return _this; } Object.defineProperty(DocumentImpl.prototype, "_nodeDocument", { get: function () { return this._nodeDocumentOverwrite || this; }, set: function (val) { this._nodeDocumentOverwrite = val; }, enumerable: true, configurable: true }); Object.defineProperty(DocumentImpl.prototype, "implementation", { /** @inheritdoc */ get: function () { /** * The implementation attribute’s getter must return the DOMImplementation * object that is associated with the document. */ return this._implementation || (this._implementation = algorithm_1.create_domImplementation(this)); }, enumerable: true, configurable: true }); Object.defineProperty(DocumentImpl.prototype, "URL", { /** @inheritdoc */ get: function () { /** * The URL attribute’s getter and documentURI attribute’s getter must return * the URL, serialized. * See: https://url.spec.whatwg.org/#concept-url-serializer */ return URLAlgorithm_1.urlSerializer(this._URL); }, enumerable: true, configurable: true }); Object.defineProperty(DocumentImpl.prototype, "documentURI", { /** @inheritdoc */ get: function () { return this.URL; }, enumerable: true, configurable: true }); Object.defineProperty(DocumentImpl.prototype, "origin", { /** @inheritdoc */ get: function () { return "null"; }, enumerable: true, configurable: true }); Object.defineProperty(DocumentImpl.prototype, "compatMode", { /** @inheritdoc */ get: function () { /** * The compatMode attribute’s getter must return "BackCompat" if context * object’s mode is "quirks", and "CSS1Compat" otherwise. */ return this._mode === "quirks" ? "BackCompat" : "CSS1Compat"; }, enumerable: true, configurable: true }); Object.defineProperty(DocumentImpl.prototype, "characterSet", { /** @inheritdoc */ get: function () { /** * The characterSet attribute’s getter, charset attribute’s getter, and * inputEncoding attribute’s getter, must return context object’s * encoding’s name. */ return this._encoding.name; }, enumerable: true, configurable: true }); Object.defineProperty(DocumentImpl.prototype, "charset", { /** @inheritdoc */ get: function () { return this._encoding.name; }, enumerable: true, configurable: true }); Object.defineProperty(DocumentImpl.prototype, "inputEncoding", { /** @inheritdoc */ get: function () { return this._encoding.name; }, enumerable: true, configurable: true }); Object.defineProperty(DocumentImpl.prototype, "contentType", { /** @inheritdoc */ get: function () { /** * The contentType attribute’s getter must return the content type. */ return this._contentType; }, enumerable: true, configurable: true }); Object.defineProperty(DocumentImpl.prototype, "doctype", { /** @inheritdoc */ get: function () { var e_1, _a; try { /** * The doctype attribute’s getter must return the child of the document * that is a doctype, and null otherwise. */ for (var _b = __values(this._children), _c = _b.next(); !_c.done; _c = _b.next()) { var child = _c.value; if (util_1.Guard.isDocumentTypeNode(child)) return child; } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_1) throw e_1.error; } } return null; }, enumerable: true, configurable: true }); Object.defineProperty(DocumentImpl.prototype, "documentElement", { /** @inheritdoc */ get: function () { /** * The documentElement attribute’s getter must return the document element. */ return this._documentElement; }, enumerable: true, configurable: true }); /** @inheritdoc */ DocumentImpl.prototype.getElementsByTagName = function (qualifiedName) { /** * The getElementsByTagName(qualifiedName) method, when invoked, must return * the list of elements with qualified name qualifiedName for the context object. */ return algorithm_1.node_listOfElementsWithQualifiedName(qualifiedName, this); }; /** @inheritdoc */ DocumentImpl.prototype.getElementsByTagNameNS = function (namespace, localName) { /** * The getElementsByTagNameNS(namespace, localName) method, when invoked, * must return the list of elements with namespace namespace and local name * localName for the context object. */ return algorithm_1.node_listOfElementsWithNamespace(namespace, localName, this); }; /** @inheritdoc */ DocumentImpl.prototype.getElementsByClassName = function (classNames) { /** * The getElementsByClassName(classNames) method, when invoked, must return * the list of elements with class names classNames for the context object. */ return algorithm_1.node_listOfElementsWithClassNames(classNames, this); }; /** @inheritdoc */ DocumentImpl.prototype.createElement = function (localName, options) { /** * 1. If localName does not match the Name production, then throw an * "InvalidCharacterError" DOMException. * 2. If the context object is an HTML document, then set localName to * localName in ASCII lowercase. * 3. Let is be null. * 4. If options is a dictionary and options’s is is present, then set is * to it. * 5. Let namespace be the HTML namespace, if the context object is an * HTML document or context object’s content type is * "application/xhtml+xml", and null otherwise. * 6. Return the result of creating an element given the context object, * localName, namespace, null, is, and with the synchronous custom elements * flag set. */ if (!algorithm_1.xml_isName(localName)) throw new DOMException_1.InvalidCharacterError(); if (this._type === "html") localName = localName.toLowerCase(); var is = null; if (options !== undefined) { if (util_2.isString(options)) { is = options; } else { is = options.is; } } var namespace = (this._type === "html" || this._contentType === "application/xhtml+xml") ? infra_1.namespace.HTML : null; return algorithm_1.element_createAnElement(this, localName, namespace, null, is, true); }; /** @inheritdoc */ DocumentImpl.prototype.createElementNS = function (namespace, qualifiedName, options) { /** * The createElementNS(namespace, qualifiedName, options) method, when * invoked, must return the result of running the internal createElementNS * steps, given context object, namespace, qualifiedName, and options. */ return algorithm_1.document_internalCreateElementNS(this, namespace, qualifiedName, options); }; /** @inheritdoc */ DocumentImpl.prototype.createDocumentFragment = function () { /** * The createDocumentFragment() method, when invoked, must return a new * DocumentFragment node with its node document set to the context object. */ return algorithm_1.create_documentFragment(this); }; /** @inheritdoc */ DocumentImpl.prototype.createTextNode = function (data) { /** * The createTextNode(data) method, when invoked, must return a new Text * node with its data set to data and node document set to the context object. */ return algorithm_1.create_text(this, data); }; /** @inheritdoc */ DocumentImpl.prototype.createCDATASection = function (data) { /** * 1. If context object is an HTML document, then throw a * "NotSupportedError" DOMException. * 2. If data contains the string "]]>", then throw an * "InvalidCharacterError" DOMException. * 3. Return a new CDATASection node with its data set to data and node * document set to the context object. */ if (this._type === "html") throw new DOMException_1.NotSupportedError(); if (data.indexOf(']]>') !== -1) throw new DOMException_1.InvalidCharacterError(); return algorithm_1.create_cdataSection(this, data); }; /** @inheritdoc */ DocumentImpl.prototype.createComment = function (data) { /** * The createComment(data) method, when invoked, must return a new Comment * node with its data set to data and node document set to the context object. */ return algorithm_1.create_comment(this, data); }; /** @inheritdoc */ DocumentImpl.prototype.createProcessingInstruction = function (target, data) { /** * 1. If target does not match the Name production, then throw an * "InvalidCharacterError" DOMException. * 2. If data contains the string "?>", then throw an * "InvalidCharacterError" DOMException. * 3. Return a new ProcessingInstruction node, with target set to target, * data set to data, and node document set to the context object. */ if (!algorithm_1.xml_isName(target)) throw new DOMException_1.InvalidCharacterError(); if (data.indexOf("?>") !== -1) throw new DOMException_1.InvalidCharacterError(); return algorithm_1.create_processingInstruction(this, target, data); }; /** @inheritdoc */ DocumentImpl.prototype.importNode = function (node, deep) { if (deep === void 0) { deep = false; } /** * 1. If node is a document or shadow root, then throw a "NotSupportedError" DOMException. */ if (util_1.Guard.isDocumentNode(node) || util_1.Guard.isShadowRoot(node)) throw new DOMException_1.NotSupportedError(); /** * 2. Return a clone of node, with context object and the clone children flag set if deep is true. */ return algorithm_1.node_clone(node, this, deep); }; /** @inheritdoc */ DocumentImpl.prototype.adoptNode = function (node) { /** * 1. If node is a document, then throw a "NotSupportedError" DOMException. */ if (util_1.Guard.isDocumentNode(node)) throw new DOMException_1.NotSupportedError(); /** * 2. If node is a shadow root, then throw a "HierarchyRequestError" DOMException. */ if (util_1.Guard.isShadowRoot(node)) throw new DOMException_1.HierarchyRequestError(); /** * 3. Adopt node into the context object. * 4. Return node. */ algorithm_1.document_adopt(node, this); return node; }; /** @inheritdoc */ DocumentImpl.prototype.createAttribute = function (localName) { /** * 1. If localName does not match the Name production in XML, then throw * an "InvalidCharacterError" DOMException. * 2. If the context object is an HTML document, then set localName to * localName in ASCII lowercase. * 3. Return a new attribute whose local name is localName and node document * is context object. */ if (!algorithm_1.xml_isName(localName)) throw new DOMException_1.InvalidCharacterError(); if (this._type === "html") { localName = localName.toLowerCase(); } var attr = algorithm_1.create_attr(this, localName); return attr; }; /** @inheritdoc */ DocumentImpl.prototype.createAttributeNS = function (namespace, qualifiedName) { /** * 1. Let namespace, prefix, and localName be the result of passing * namespace and qualifiedName to validate and extract. * 2. Return a new attribute whose namespace is namespace, namespace prefix * is prefix, local name is localName, and node document is context object. */ var _a = __read(algorithm_1.namespace_validateAndExtract(namespace, qualifiedName), 3), ns = _a[0], prefix = _a[1], localName = _a[2]; var attr = algorithm_1.create_attr(this, localName); attr._namespace = ns; attr._namespacePrefix = prefix; return attr; }; /** @inheritdoc */ DocumentImpl.prototype.createEvent = function (eventInterface) { return algorithm_1.event_createLegacyEvent(eventInterface); }; /** @inheritdoc */ DocumentImpl.prototype.createRange = function () { /** * The createRange() method, when invoked, must return a new live range * with (context object, 0) as its start and end. */ var range = algorithm_1.create_range(); range._start = [this, 0]; range._end = [this, 0]; return range; }; /** @inheritdoc */ DocumentImpl.prototype.createNodeIterator = function (root, whatToShow, filter) { if (whatToShow === void 0) { whatToShow = interfaces_1.WhatToShow.All; } if (filter === void 0) { filter = null; } /** * 1. Let iterator be a new NodeIterator object. * 2. Set iterator’s root and iterator’s reference to root. * 3. Set iterator’s pointer before reference to true. * 4. Set iterator’s whatToShow to whatToShow. * 5. Set iterator’s filter to filter. * 6. Return iterator. */ var iterator = algorithm_1.create_nodeIterator(root, root, true); iterator._whatToShow = whatToShow; iterator._iteratorCollection = algorithm_1.create_nodeList(root); if (util_2.isFunction(filter)) { iterator._filter = algorithm_1.create_nodeFilter(); iterator._filter.acceptNode = filter; } else { iterator._filter = filter; } return iterator; }; /** @inheritdoc */ DocumentImpl.prototype.createTreeWalker = function (root, whatToShow, filter) { if (whatToShow === void 0) { whatToShow = interfaces_1.WhatToShow.All; } if (filter === void 0) { filter = null; } /** * 1. Let walker be a new TreeWalker object. * 2. Set walker’s root and walker’s current to root. * 3. Set walker’s whatToShow to whatToShow. * 4. Set walker’s filter to filter. * 5. Return walker. */ var walker = algorithm_1.create_treeWalker(root, root); walker._whatToShow = whatToShow; if (util_2.isFunction(filter)) { walker._filter = algorithm_1.create_nodeFilter(); walker._filter.acceptNode = filter; } else { walker._filter = filter; } return walker; }; /** * Gets the parent event target for the given event. * * @param event - an event */ DocumentImpl.prototype._getTheParent = function (event) { /** * TODO: Implement realms * A document’s get the parent algorithm, given an event, returns null if * event’s type attribute value is "load" or document does not have a * browsing context, and the document’s relevant global object otherwise. */ if (event._type === "load") { return null; } else { return DOMImpl_1.dom.window; } }; // MIXIN: NonElementParentNode /* istanbul ignore next */ DocumentImpl.prototype.getElementById = function (elementId) { throw new Error("Mixin: NonElementParentNode not implemented."); }; Object.defineProperty(DocumentImpl.prototype, "children", { // MIXIN: DocumentOrShadowRoot // No elements // MIXIN: ParentNode /* istanbul ignore next */ get: function () { throw new Error("Mixin: ParentNode not implemented."); }, enumerable: true, configurable: true }); Object.defineProperty(DocumentImpl.prototype, "firstElementChild", { /* istanbul ignore next */ get: function () { throw new Error("Mixin: ParentNode not implemented."); }, enumerable: true, configurable: true }); Object.defineProperty(DocumentImpl.prototype, "lastElementChild", { /* istanbul ignore next */ get: function () { throw new Error("Mixin: ParentNode not implemented."); }, enumerable: true, configurable: true }); Object.defineProperty(DocumentImpl.prototype, "childElementCount", { /* istanbul ignore next */ get: function () { throw new Error("Mixin: ParentNode not implemented."); }, enumerable: true, configurable: true }); /* istanbul ignore next */ DocumentImpl.prototype.prepend = function () { var nodes = []; for (var _i = 0; _i < arguments.length; _i++) { nodes[_i] = arguments[_i]; } throw new Error("Mixin: ParentNode not implemented."); }; /* istanbul ignore next */ DocumentImpl.prototype.append = function () { var nodes = []; for (var _i = 0; _i < arguments.length; _i++) { nodes[_i] = arguments[_i]; } throw new Error("Mixin: ParentNode not implemented."); }; /* istanbul ignore next */ DocumentImpl.prototype.querySelector = function (selectors) { throw new Error("Mixin: ParentNode not implemented."); }; /* istanbul ignore next */ DocumentImpl.prototype.querySelectorAll = function (selectors) { throw new Error("Mixin: ParentNode not implemented."); }; return DocumentImpl; }(NodeImpl_1.NodeImpl)); exports.DocumentImpl = DocumentImpl; /** * Initialize prototype properties */ WebIDLAlgorithm_1.idl_defineConst(DocumentImpl.prototype, "_nodeType", interfaces_1.NodeType.Document); //# sourceMappingURL=DocumentImpl.js.map /***/ }), /***/ 65274: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); /** * Represents a mixin for an interface to be used to share APIs between * documents and shadow roots. This mixin is implemented by * {@link Document} and {@link ShadowRoot}. * * _Note:_ The DocumentOrShadowRoot mixin is expected to be used by other * standards that want to define APIs shared between documents and shadow roots. */ var DocumentOrShadowRootImpl = /** @class */ (function () { function DocumentOrShadowRootImpl() { } return DocumentOrShadowRootImpl; }()); exports.DocumentOrShadowRootImpl = DocumentOrShadowRootImpl; //# sourceMappingURL=DocumentOrShadowRootImpl.js.map /***/ }), /***/ 3173: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __extends = (this && this.__extends) || (function () { var extendStatics = function (d, b) { extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; }; return extendStatics(d, b); }; return function (d, b) { extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; })(); Object.defineProperty(exports, "__esModule", ({ value: true })); var interfaces_1 = __nccwpck_require__(27305); var NodeImpl_1 = __nccwpck_require__(91745); var WebIDLAlgorithm_1 = __nccwpck_require__(45457); /** * Represents an object providing methods which are not dependent on * any particular document */ var DocumentTypeImpl = /** @class */ (function (_super) { __extends(DocumentTypeImpl, _super); /** * Initializes a new instance of `DocumentType`. * * @param name - name of the node * @param publicId - `PUBLIC` identifier * @param systemId - `SYSTEM` identifier */ function DocumentTypeImpl(name, publicId, systemId) { var _this = _super.call(this) || this; _this._name = ''; _this._publicId = ''; _this._systemId = ''; _this._name = name; _this._publicId = publicId; _this._systemId = systemId; return _this; } Object.defineProperty(DocumentTypeImpl.prototype, "name", { /** @inheritdoc */ get: function () { return this._name; }, enumerable: true, configurable: true }); Object.defineProperty(DocumentTypeImpl.prototype, "publicId", { /** @inheritdoc */ get: function () { return this._publicId; }, enumerable: true, configurable: true }); Object.defineProperty(DocumentTypeImpl.prototype, "systemId", { /** @inheritdoc */ get: function () { return this._systemId; }, enumerable: true, configurable: true }); // MIXIN: ChildNode /* istanbul ignore next */ DocumentTypeImpl.prototype.before = function () { var nodes = []; for (var _i = 0; _i < arguments.length; _i++) { nodes[_i] = arguments[_i]; } throw new Error("Mixin: ChildNode not implemented."); }; /* istanbul ignore next */ DocumentTypeImpl.prototype.after = function () { var nodes = []; for (var _i = 0; _i < arguments.length; _i++) { nodes[_i] = arguments[_i]; } throw new Error("Mixin: ChildNode not implemented."); }; /* istanbul ignore next */ DocumentTypeImpl.prototype.replaceWith = function () { var nodes = []; for (var _i = 0; _i < arguments.length; _i++) { nodes[_i] = arguments[_i]; } throw new Error("Mixin: ChildNode not implemented."); }; /* istanbul ignore next */ DocumentTypeImpl.prototype.remove = function () { throw new Error("Mixin: ChildNode not implemented."); }; /** * Creates a new `DocumentType`. * * @param document - owner document * @param name - name of the node * @param publicId - `PUBLIC` identifier * @param systemId - `SYSTEM` identifier */ DocumentTypeImpl._create = function (document, name, publicId, systemId) { if (publicId === void 0) { publicId = ''; } if (systemId === void 0) { systemId = ''; } var node = new DocumentTypeImpl(name, publicId, systemId); node._nodeDocument = document; return node; }; return DocumentTypeImpl; }(NodeImpl_1.NodeImpl)); exports.DocumentTypeImpl = DocumentTypeImpl; /** * Initialize prototype properties */ WebIDLAlgorithm_1.idl_defineConst(DocumentTypeImpl.prototype, "_nodeType", interfaces_1.NodeType.DocumentType); //# sourceMappingURL=DocumentTypeImpl.js.map /***/ }), /***/ 35975: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __extends = (this && this.__extends) || (function () { var extendStatics = function (d, b) { extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; }; return extendStatics(d, b); }; return function (d, b) { extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; })(); var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; var __read = (this && this.__read) || function (o, n) { var m = typeof Symbol === "function" && o[Symbol.iterator]; if (!m) return o; var i = m.call(o), r, ar = [], e; try { while ((n === void 0 || n-- > 0) && !(r = i.next()).done) ar.push(r.value); } catch (error) { e = { error: error }; } finally { try { if (r && !r.done && (m = i["return"])) m.call(i); } finally { if (e) throw e.error; } } return ar; }; Object.defineProperty(exports, "__esModule", ({ value: true })); var interfaces_1 = __nccwpck_require__(27305); var NodeImpl_1 = __nccwpck_require__(91745); var DOMException_1 = __nccwpck_require__(13166); var infra_1 = __nccwpck_require__(84251); var algorithm_1 = __nccwpck_require__(61); var WebIDLAlgorithm_1 = __nccwpck_require__(45457); /** * Represents an element node. */ var ElementImpl = /** @class */ (function (_super) { __extends(ElementImpl, _super); /** * Initializes a new instance of `Element`. */ function ElementImpl() { var _this = _super.call(this) || this; _this._children = new Set(); _this._namespace = null; _this._namespacePrefix = null; _this._localName = ""; _this._customElementState = "undefined"; _this._customElementDefinition = null; _this._is = null; _this._shadowRoot = null; _this._attributeList = algorithm_1.create_namedNodeMap(_this); _this._attributeChangeSteps = []; _this._name = ''; _this._assignedSlot = null; return _this; } Object.defineProperty(ElementImpl.prototype, "namespaceURI", { /** @inheritdoc */ get: function () { return this._namespace; }, enumerable: true, configurable: true }); Object.defineProperty(ElementImpl.prototype, "prefix", { /** @inheritdoc */ get: function () { return this._namespacePrefix; }, enumerable: true, configurable: true }); Object.defineProperty(ElementImpl.prototype, "localName", { /** @inheritdoc */ get: function () { return this._localName; }, enumerable: true, configurable: true }); Object.defineProperty(ElementImpl.prototype, "tagName", { /** @inheritdoc */ get: function () { return this._htmlUppercasedQualifiedName; }, enumerable: true, configurable: true }); Object.defineProperty(ElementImpl.prototype, "id", { /** @inheritdoc */ get: function () { return algorithm_1.element_getAnAttributeValue(this, "id"); }, set: function (value) { algorithm_1.element_setAnAttributeValue(this, "id", value); }, enumerable: true, configurable: true }); Object.defineProperty(ElementImpl.prototype, "className", { /** @inheritdoc */ get: function () { return algorithm_1.element_getAnAttributeValue(this, "class"); }, set: function (value) { algorithm_1.element_setAnAttributeValue(this, "class", value); }, enumerable: true, configurable: true }); Object.defineProperty(ElementImpl.prototype, "classList", { /** @inheritdoc */ get: function () { var attr = algorithm_1.element_getAnAttributeByName("class", this); if (attr === null) { attr = algorithm_1.create_attr(this._nodeDocument, "class"); } return algorithm_1.create_domTokenList(this, attr); }, enumerable: true, configurable: true }); Object.defineProperty(ElementImpl.prototype, "slot", { /** @inheritdoc */ get: function () { return algorithm_1.element_getAnAttributeValue(this, "slot"); }, set: function (value) { algorithm_1.element_setAnAttributeValue(this, "slot", value); }, enumerable: true, configurable: true }); /** @inheritdoc */ ElementImpl.prototype.hasAttributes = function () { return this._attributeList.length !== 0; }; Object.defineProperty(ElementImpl.prototype, "attributes", { /** @inheritdoc */ get: function () { return this._attributeList; }, enumerable: true, configurable: true }); /** @inheritdoc */ ElementImpl.prototype.getAttributeNames = function () { var e_1, _a; /** * The getAttributeNames() method, when invoked, must return the qualified * names of the attributes in context object’s attribute list, in order, * and a new list otherwise. */ var names = []; try { for (var _b = __values(this._attributeList), _c = _b.next(); !_c.done; _c = _b.next()) { var attr = _c.value; names.push(attr._qualifiedName); } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_1) throw e_1.error; } } return names; }; /** @inheritdoc */ ElementImpl.prototype.getAttribute = function (qualifiedName) { /** * 1. Let attr be the result of getting an attribute given qualifiedName * and the context object. * 2. If attr is null, return null. * 3. Return attr’s value. */ var attr = algorithm_1.element_getAnAttributeByName(qualifiedName, this); return (attr ? attr._value : null); }; /** @inheritdoc */ ElementImpl.prototype.getAttributeNS = function (namespace, localName) { /** * 1. Let attr be the result of getting an attribute given namespace, * localName, and the context object. * 2. If attr is null, return null. * 3. Return attr’s value. */ var attr = algorithm_1.element_getAnAttributeByNamespaceAndLocalName(namespace, localName, this); return (attr ? attr._value : null); }; /** @inheritdoc */ ElementImpl.prototype.setAttribute = function (qualifiedName, value) { /** * 1. If qualifiedName does not match the Name production in XML, then * throw an "InvalidCharacterError" DOMException. */ if (!algorithm_1.xml_isName(qualifiedName)) throw new DOMException_1.InvalidCharacterError(); /** * 2. If the context object is in the HTML namespace and its node document * is an HTML document, then set qualifiedName to qualifiedName in ASCII * lowercase. */ if (this._namespace === infra_1.namespace.HTML && this._nodeDocument._type === "html") { qualifiedName = qualifiedName.toLowerCase(); } /** * 3. Let attribute be the first attribute in context object’s attribute * list whose qualified name is qualifiedName, and null otherwise. */ var attribute = null; for (var i = 0; i < this._attributeList.length; i++) { var attr = this._attributeList[i]; if (attr._qualifiedName === qualifiedName) { attribute = attr; break; } } /** * 4. If attribute is null, create an attribute whose local name is * qualifiedName, value is value, and node document is context object’s * node document, then append this attribute to context object, and * then return. */ if (attribute === null) { attribute = algorithm_1.create_attr(this._nodeDocument, qualifiedName); attribute._value = value; algorithm_1.element_append(attribute, this); return; } /** * 5. Change attribute from context object to value. */ algorithm_1.element_change(attribute, this, value); }; /** @inheritdoc */ ElementImpl.prototype.setAttributeNS = function (namespace, qualifiedName, value) { /** * 1. Let namespace, prefix, and localName be the result of passing * namespace and qualifiedName to validate and extract. * 2. Set an attribute value for the context object using localName, value, * and also prefix and namespace. */ var _a = __read(algorithm_1.namespace_validateAndExtract(namespace, qualifiedName), 3), ns = _a[0], prefix = _a[1], localName = _a[2]; algorithm_1.element_setAnAttributeValue(this, localName, value, prefix, ns); }; /** @inheritdoc */ ElementImpl.prototype.removeAttribute = function (qualifiedName) { /** * The removeAttribute(qualifiedName) method, when invoked, must remove an * attribute given qualifiedName and the context object, and then return * undefined. */ algorithm_1.element_removeAnAttributeByName(qualifiedName, this); }; /** @inheritdoc */ ElementImpl.prototype.removeAttributeNS = function (namespace, localName) { /** * The removeAttributeNS(namespace, localName) method, when invoked, must * remove an attribute given namespace, localName, and context object, and * then return undefined. */ algorithm_1.element_removeAnAttributeByNamespaceAndLocalName(namespace, localName, this); }; /** @inheritdoc */ ElementImpl.prototype.hasAttribute = function (qualifiedName) { /** * 1. If the context object is in the HTML namespace and its node document * is an HTML document, then set qualifiedName to qualifiedName in ASCII * lowercase. * 2. Return true if the context object has an attribute whose qualified * name is qualifiedName, and false otherwise. */ if (this._namespace === infra_1.namespace.HTML && this._nodeDocument._type === "html") { qualifiedName = qualifiedName.toLowerCase(); } for (var i = 0; i < this._attributeList.length; i++) { var attr = this._attributeList[i]; if (attr._qualifiedName === qualifiedName) { return true; } } return false; }; /** @inheritdoc */ ElementImpl.prototype.toggleAttribute = function (qualifiedName, force) { /** * 1. If qualifiedName does not match the Name production in XML, then * throw an "InvalidCharacterError" DOMException. */ if (!algorithm_1.xml_isName(qualifiedName)) throw new DOMException_1.InvalidCharacterError(); /** * 2. If the context object is in the HTML namespace and its node document * is an HTML document, then set qualifiedName to qualifiedName in ASCII * lowercase. */ if (this._namespace === infra_1.namespace.HTML && this._nodeDocument._type === "html") { qualifiedName = qualifiedName.toLowerCase(); } /** * 3. Let attribute be the first attribute in the context object’s attribute * list whose qualified name is qualifiedName, and null otherwise. */ var attribute = null; for (var i = 0; i < this._attributeList.length; i++) { var attr = this._attributeList[i]; if (attr._qualifiedName === qualifiedName) { attribute = attr; break; } } if (attribute === null) { /** * 4. If attribute is null, then: * 4.1. If force is not given or is true, create an attribute whose local * name is qualifiedName, value is the empty string, and node document is * the context object’s node document, then append this attribute to the * context object, and then return true. * 4.2. Return false. */ if (force === undefined || force === true) { attribute = algorithm_1.create_attr(this._nodeDocument, qualifiedName); attribute._value = ''; algorithm_1.element_append(attribute, this); return true; } return false; } else if (force === undefined || force === false) { /** * 5. Otherwise, if force is not given or is false, remove an attribute * given qualifiedName and the context object, and then return false. */ algorithm_1.element_removeAnAttributeByName(qualifiedName, this); return false; } /** * 6. Return true. */ return true; }; /** @inheritdoc */ ElementImpl.prototype.hasAttributeNS = function (namespace, localName) { /** * 1. If namespace is the empty string, set it to null. * 2. Return true if the context object has an attribute whose namespace is * namespace and local name is localName, and false otherwise. */ var ns = namespace || null; for (var i = 0; i < this._attributeList.length; i++) { var attr = this._attributeList[i]; if (attr._namespace === ns && attr._localName === localName) { return true; } } return false; }; /** @inheritdoc */ ElementImpl.prototype.getAttributeNode = function (qualifiedName) { /** * The getAttributeNode(qualifiedName) method, when invoked, must return the * result of getting an attribute given qualifiedName and context object. */ return algorithm_1.element_getAnAttributeByName(qualifiedName, this); }; /** @inheritdoc */ ElementImpl.prototype.getAttributeNodeNS = function (namespace, localName) { /** * The getAttributeNodeNS(namespace, localName) method, when invoked, must * return the result of getting an attribute given namespace, localName, and * the context object. */ return algorithm_1.element_getAnAttributeByNamespaceAndLocalName(namespace, localName, this); }; /** @inheritdoc */ ElementImpl.prototype.setAttributeNode = function (attr) { /** * The setAttributeNode(attr) and setAttributeNodeNS(attr) methods, when * invoked, must return the result of setting an attribute given attr and * the context object. */ return algorithm_1.element_setAnAttribute(attr, this); }; /** @inheritdoc */ ElementImpl.prototype.setAttributeNodeNS = function (attr) { return algorithm_1.element_setAnAttribute(attr, this); }; /** @inheritdoc */ ElementImpl.prototype.removeAttributeNode = function (attr) { /** * 1. If context object’s attribute list does not contain attr, then throw * a "NotFoundError" DOMException. * 2. Remove attr from context object. * 3. Return attr. */ var found = false; for (var i = 0; i < this._attributeList.length; i++) { var attribute = this._attributeList[i]; if (attribute === attr) { found = true; break; } } if (!found) throw new DOMException_1.NotFoundError(); algorithm_1.element_remove(attr, this); return attr; }; /** @inheritdoc */ ElementImpl.prototype.attachShadow = function (init) { /** * 1. If context object’s namespace is not the HTML namespace, then throw a * "NotSupportedError" DOMException. */ if (this._namespace !== infra_1.namespace.HTML) throw new DOMException_1.NotSupportedError(); /** * 2. If context object’s local name is not a valid custom element name, * "article", "aside", "blockquote", "body", "div", "footer", "h1", "h2", * "h3", "h4", "h5", "h6", "header", "main" "nav", "p", "section", * or "span", then throw a "NotSupportedError" DOMException. */ if (!algorithm_1.customElement_isValidCustomElementName(this._localName) && !algorithm_1.customElement_isValidShadowHostName(this._localName)) throw new DOMException_1.NotSupportedError(); /** * 3. If context object’s local name is a valid custom element name, * or context object’s is value is not null, then: * 3.1. Let definition be the result of looking up a custom element * definition given context object’s node document, its namespace, its * local name, and its is value. * 3.2. If definition is not null and definition’s disable shadow is true, * then throw a "NotSupportedError" DOMException. */ if (algorithm_1.customElement_isValidCustomElementName(this._localName) || this._is !== null) { var definition = algorithm_1.customElement_lookUpACustomElementDefinition(this._nodeDocument, this._namespace, this._localName, this._is); if (definition !== null && definition.disableShadow === true) { throw new DOMException_1.NotSupportedError(); } } /** * 4. If context object is a shadow host, then throw an "NotSupportedError" * DOMException. */ if (this._shadowRoot !== null) throw new DOMException_1.NotSupportedError(); /** * 5. Let shadow be a new shadow root whose node document is context * object’s node document, host is context object, and mode is init’s mode. * 6. Set context object’s shadow root to shadow. * 7. Return shadow. */ var shadow = algorithm_1.create_shadowRoot(this._nodeDocument, this); shadow._mode = init.mode; this._shadowRoot = shadow; return shadow; }; Object.defineProperty(ElementImpl.prototype, "shadowRoot", { /** @inheritdoc */ get: function () { /** * 1. Let shadow be context object’s shadow root. * 2. If shadow is null or its mode is "closed", then return null. * 3. Return shadow. */ var shadow = this._shadowRoot; if (shadow === null || shadow.mode === "closed") return null; else return shadow; }, enumerable: true, configurable: true }); /** @inheritdoc */ ElementImpl.prototype.closest = function (selectors) { /** * TODO: Selectors * 1. Let s be the result of parse a selector from selectors. [SELECTORS4] * 2. If s is failure, throw a "SyntaxError" DOMException. * 3. Let elements be context object’s inclusive ancestors that are * elements, in reverse tree order. * 4. For each element in elements, if match a selector against an element, * using s, element, and :scope element context object, returns success, * return element. [SELECTORS4] * 5. Return null. */ throw new DOMException_1.NotImplementedError(); }; /** @inheritdoc */ ElementImpl.prototype.matches = function (selectors) { /** * TODO: Selectors * 1. Let s be the result of parse a selector from selectors. [SELECTORS4] * 2. If s is failure, throw a "SyntaxError" DOMException. * 3. Return true if the result of match a selector against an element, * using s, element, and :scope element context object, returns success, * and false otherwise. [SELECTORS4] */ throw new DOMException_1.NotImplementedError(); }; /** @inheritdoc */ ElementImpl.prototype.webkitMatchesSelector = function (selectors) { return this.matches(selectors); }; /** @inheritdoc */ ElementImpl.prototype.getElementsByTagName = function (qualifiedName) { /** * The getElementsByTagName(qualifiedName) method, when invoked, must return * the list of elements with qualified name qualifiedName for context * object. */ return algorithm_1.node_listOfElementsWithQualifiedName(qualifiedName, this); }; /** @inheritdoc */ ElementImpl.prototype.getElementsByTagNameNS = function (namespace, localName) { /** * The getElementsByTagNameNS(namespace, localName) method, when invoked, * must return the list of elements with namespace namespace and local name * localName for context object. */ return algorithm_1.node_listOfElementsWithNamespace(namespace, localName, this); }; /** @inheritdoc */ ElementImpl.prototype.getElementsByClassName = function (classNames) { /** * The getElementsByClassName(classNames) method, when invoked, must return * the list of elements with class names classNames for context object. */ return algorithm_1.node_listOfElementsWithClassNames(classNames, this); }; /** @inheritdoc */ ElementImpl.prototype.insertAdjacentElement = function (where, element) { /** * The insertAdjacentElement(where, element) method, when invoked, must * return the result of running insert adjacent, given context object, * where, and element. */ return algorithm_1.element_insertAdjacent(this, where, element); }; /** @inheritdoc */ ElementImpl.prototype.insertAdjacentText = function (where, data) { /** * 1. Let text be a new Text node whose data is data and node document is * context object’s node document. * 2. Run insert adjacent, given context object, where, and text. */ var text = algorithm_1.create_text(this._nodeDocument, data); algorithm_1.element_insertAdjacent(this, where, text); }; Object.defineProperty(ElementImpl.prototype, "_qualifiedName", { /** * Returns the qualified name. */ get: function () { /** * An element’s qualified name is its local name if its namespace prefix is * null, and its namespace prefix, followed by ":", followed by its * local name, otherwise. */ return (this._namespacePrefix ? this._namespacePrefix + ':' + this._localName : this._localName); }, enumerable: true, configurable: true }); Object.defineProperty(ElementImpl.prototype, "_htmlUppercasedQualifiedName", { /** * Returns the upper-cased qualified name for a html element. */ get: function () { /** * 1. Let qualifiedName be context object’s qualified name. * 2. If the context object is in the HTML namespace and its node document * is an HTML document, then set qualifiedName to qualifiedName in ASCII * uppercase. * 3. Return qualifiedName. */ var qualifiedName = this._qualifiedName; if (this._namespace === infra_1.namespace.HTML && this._nodeDocument._type === "html") { qualifiedName = qualifiedName.toUpperCase(); } return qualifiedName; }, enumerable: true, configurable: true }); Object.defineProperty(ElementImpl.prototype, "children", { // MIXIN: ParentNode /* istanbul ignore next */ get: function () { throw new Error("Mixin: ParentNode not implemented."); }, enumerable: true, configurable: true }); Object.defineProperty(ElementImpl.prototype, "firstElementChild", { /* istanbul ignore next */ get: function () { throw new Error("Mixin: ParentNode not implemented."); }, enumerable: true, configurable: true }); Object.defineProperty(ElementImpl.prototype, "lastElementChild", { /* istanbul ignore next */ get: function () { throw new Error("Mixin: ParentNode not implemented."); }, enumerable: true, configurable: true }); Object.defineProperty(ElementImpl.prototype, "childElementCount", { /* istanbul ignore next */ get: function () { throw new Error("Mixin: ParentNode not implemented."); }, enumerable: true, configurable: true }); /* istanbul ignore next */ ElementImpl.prototype.prepend = function () { var nodes = []; for (var _i = 0; _i < arguments.length; _i++) { nodes[_i] = arguments[_i]; } throw new Error("Mixin: ParentNode not implemented."); }; /* istanbul ignore next */ ElementImpl.prototype.append = function () { var nodes = []; for (var _i = 0; _i < arguments.length; _i++) { nodes[_i] = arguments[_i]; } throw new Error("Mixin: ParentNode not implemented."); }; /* istanbul ignore next */ ElementImpl.prototype.querySelector = function (selectors) { throw new Error("Mixin: ParentNode not implemented."); }; /* istanbul ignore next */ ElementImpl.prototype.querySelectorAll = function (selectors) { throw new Error("Mixin: ParentNode not implemented."); }; Object.defineProperty(ElementImpl.prototype, "previousElementSibling", { // MIXIN: NonDocumentTypeChildNode /* istanbul ignore next */ get: function () { throw new Error("Mixin: NonDocumentTypeChildNode not implemented."); }, enumerable: true, configurable: true }); Object.defineProperty(ElementImpl.prototype, "nextElementSibling", { /* istanbul ignore next */ get: function () { throw new Error("Mixin: NonDocumentTypeChildNode not implemented."); }, enumerable: true, configurable: true }); // MIXIN: ChildNode /* istanbul ignore next */ ElementImpl.prototype.before = function () { var nodes = []; for (var _i = 0; _i < arguments.length; _i++) { nodes[_i] = arguments[_i]; } throw new Error("Mixin: ChildNode not implemented."); }; /* istanbul ignore next */ ElementImpl.prototype.after = function () { var nodes = []; for (var _i = 0; _i < arguments.length; _i++) { nodes[_i] = arguments[_i]; } throw new Error("Mixin: ChildNode not implemented."); }; /* istanbul ignore next */ ElementImpl.prototype.replaceWith = function () { var nodes = []; for (var _i = 0; _i < arguments.length; _i++) { nodes[_i] = arguments[_i]; } throw new Error("Mixin: ChildNode not implemented."); }; /* istanbul ignore next */ ElementImpl.prototype.remove = function () { throw new Error("Mixin: ChildNode not implemented."); }; Object.defineProperty(ElementImpl.prototype, "assignedSlot", { // MIXIN: Slotable /* istanbul ignore next */ get: function () { throw new Error("Mixin: Slotable not implemented."); }, enumerable: true, configurable: true }); /** * Creates a new `Element`. * * @param document - owner document * @param localName - local name * @param namespace - namespace * @param prefix - namespace prefix */ ElementImpl._create = function (document, localName, namespace, namespacePrefix) { if (namespace === void 0) { namespace = null; } if (namespacePrefix === void 0) { namespacePrefix = null; } var node = new ElementImpl(); node._localName = localName; node._namespace = namespace; node._namespacePrefix = namespacePrefix; node._nodeDocument = document; return node; }; return ElementImpl; }(NodeImpl_1.NodeImpl)); exports.ElementImpl = ElementImpl; /** * Initialize prototype properties */ WebIDLAlgorithm_1.idl_defineConst(ElementImpl.prototype, "_nodeType", interfaces_1.NodeType.Element); //# sourceMappingURL=ElementImpl.js.map /***/ }), /***/ 38245: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var interfaces_1 = __nccwpck_require__(27305); var algorithm_1 = __nccwpck_require__(61); var WebIDLAlgorithm_1 = __nccwpck_require__(45457); /** * Represents a DOM event. */ var EventImpl = /** @class */ (function () { /** * Initializes a new instance of `Event`. */ function EventImpl(type, eventInit) { this._target = null; this._relatedTarget = null; this._touchTargetList = []; this._path = []; this._currentTarget = null; this._eventPhase = interfaces_1.EventPhase.None; this._stopPropagationFlag = false; this._stopImmediatePropagationFlag = false; this._canceledFlag = false; this._inPassiveListenerFlag = false; this._composedFlag = false; this._initializedFlag = false; this._dispatchFlag = false; this._isTrusted = false; this._bubbles = false; this._cancelable = false; /** * When a constructor of the Event interface, or of an interface that * inherits from the Event interface, is invoked, these steps must be run, * given the arguments type and eventInitDict: * 1. Let event be the result of running the inner event creation steps with * this interface, null, now, and eventInitDict. * 2. Initialize event’s type attribute to type. * 3. Return event. */ this._type = type; if (eventInit) { this._bubbles = eventInit.bubbles || false; this._cancelable = eventInit.cancelable || false; this._composedFlag = eventInit.composed || false; } this._initializedFlag = true; this._timeStamp = new Date().getTime(); } Object.defineProperty(EventImpl.prototype, "type", { /** @inheritdoc */ get: function () { return this._type; }, enumerable: true, configurable: true }); Object.defineProperty(EventImpl.prototype, "target", { /** @inheritdoc */ get: function () { return this._target; }, enumerable: true, configurable: true }); Object.defineProperty(EventImpl.prototype, "srcElement", { /** @inheritdoc */ get: function () { return this._target; }, enumerable: true, configurable: true }); Object.defineProperty(EventImpl.prototype, "currentTarget", { /** @inheritdoc */ get: function () { return this._currentTarget; }, enumerable: true, configurable: true }); /** @inheritdoc */ EventImpl.prototype.composedPath = function () { /** * 1. Let composedPath be an empty list. * 2. Let path be the context object’s path. * 3. If path is empty, then return composedPath. * 4. Let currentTarget be the context object’s currentTarget attribute * value. * 5. Append currentTarget to composedPath. * 6. Let currentTargetIndex be 0. * 7. Let currentTargetHiddenSubtreeLevel be 0. */ var composedPath = []; var path = this._path; if (path.length === 0) return composedPath; var currentTarget = this._currentTarget; if (currentTarget === null) { throw new Error("Event currentTarget is null."); } composedPath.push(currentTarget); var currentTargetIndex = 0; var currentTargetHiddenSubtreeLevel = 0; /** * 8. Let index be path’s size − 1. * 9. While index is greater than or equal to 0: */ var index = path.length - 1; while (index >= 0) { /** * 9.1. If path[index]'s root-of-closed-tree is true, then increase * currentTargetHiddenSubtreeLevel by 1. * 9.2. If path[index]'s invocation target is currentTarget, then set * currentTargetIndex to index and break. * 9.3. If path[index]'s slot-in-closed-tree is true, then decrease * currentTargetHiddenSubtreeLevel by 1. * 9.4. Decrease index by 1. */ if (path[index].rootOfClosedTree) { currentTargetHiddenSubtreeLevel++; } if (path[index].invocationTarget === currentTarget) { currentTargetIndex = index; break; } if (path[index].slotInClosedTree) { currentTargetHiddenSubtreeLevel--; } index--; } /** * 10. Let currentHiddenLevel and maxHiddenLevel be * currentTargetHiddenSubtreeLevel. */ var currentHiddenLevel = currentTargetHiddenSubtreeLevel; var maxHiddenLevel = currentTargetHiddenSubtreeLevel; /** * 11. Set index to currentTargetIndex − 1. * 12. While index is greater than or equal to 0: */ index = currentTargetIndex - 1; while (index >= 0) { /** * 12.1. If path[index]'s root-of-closed-tree is true, then increase * currentHiddenLevel by 1. * 12.2. If currentHiddenLevel is less than or equal to maxHiddenLevel, * then prepend path[index]'s invocation target to composedPath. */ if (path[index].rootOfClosedTree) { currentHiddenLevel++; } if (currentHiddenLevel <= maxHiddenLevel) { composedPath.unshift(path[index].invocationTarget); } /** * 12.3. If path[index]'s slot-in-closed-tree is true, then: */ if (path[index].slotInClosedTree) { /** * 12.3.1. Decrease currentHiddenLevel by 1. * 12.3.2. If currentHiddenLevel is less than maxHiddenLevel, then set * maxHiddenLevel to currentHiddenLevel. */ currentHiddenLevel--; if (currentHiddenLevel < maxHiddenLevel) { maxHiddenLevel = currentHiddenLevel; } } /** * 12.4. Decrease index by 1. */ index--; } /** * 13. Set currentHiddenLevel and maxHiddenLevel to * currentTargetHiddenSubtreeLevel. */ currentHiddenLevel = currentTargetHiddenSubtreeLevel; maxHiddenLevel = currentTargetHiddenSubtreeLevel; /** * 14. Set index to currentTargetIndex + 1. * 15. While index is less than path’s size: */ index = currentTargetIndex + 1; while (index < path.length) { /** * 15.1. If path[index]'s slot-in-closed-tree is true, then increase * currentHiddenLevel by 1. * 15.2. If currentHiddenLevel is less than or equal to maxHiddenLevel, * then append path[index]'s invocation target to composedPath. */ if (path[index].slotInClosedTree) { currentHiddenLevel++; } if (currentHiddenLevel <= maxHiddenLevel) { composedPath.push(path[index].invocationTarget); } /** * 15.3. If path[index]'s root-of-closed-tree is true, then: */ if (path[index].rootOfClosedTree) { /** * 15.3.1. Decrease currentHiddenLevel by 1. * 15.3.2. If currentHiddenLevel is less than maxHiddenLevel, then set * maxHiddenLevel to currentHiddenLevel. */ currentHiddenLevel--; if (currentHiddenLevel < maxHiddenLevel) { maxHiddenLevel = currentHiddenLevel; } } /** * 15.4. Increase index by 1. */ index++; } /** * 16. Return composedPath. */ return composedPath; }; Object.defineProperty(EventImpl.prototype, "eventPhase", { /** @inheritdoc */ get: function () { return this._eventPhase; }, enumerable: true, configurable: true }); /** @inheritdoc */ EventImpl.prototype.stopPropagation = function () { this._stopPropagationFlag = true; }; Object.defineProperty(EventImpl.prototype, "cancelBubble", { /** @inheritdoc */ get: function () { return this._stopPropagationFlag; }, set: function (value) { if (value) this.stopPropagation(); }, enumerable: true, configurable: true }); /** @inheritdoc */ EventImpl.prototype.stopImmediatePropagation = function () { this._stopPropagationFlag = true; this._stopImmediatePropagationFlag = true; }; Object.defineProperty(EventImpl.prototype, "bubbles", { /** @inheritdoc */ get: function () { return this._bubbles; }, enumerable: true, configurable: true }); Object.defineProperty(EventImpl.prototype, "cancelable", { /** @inheritdoc */ get: function () { return this._cancelable; }, enumerable: true, configurable: true }); Object.defineProperty(EventImpl.prototype, "returnValue", { /** @inheritdoc */ get: function () { return !this._canceledFlag; }, set: function (value) { if (!value) { algorithm_1.event_setTheCanceledFlag(this); } }, enumerable: true, configurable: true }); /** @inheritdoc */ EventImpl.prototype.preventDefault = function () { algorithm_1.event_setTheCanceledFlag(this); }; Object.defineProperty(EventImpl.prototype, "defaultPrevented", { /** @inheritdoc */ get: function () { return this._canceledFlag; }, enumerable: true, configurable: true }); Object.defineProperty(EventImpl.prototype, "composed", { /** @inheritdoc */ get: function () { return this._composedFlag; }, enumerable: true, configurable: true }); Object.defineProperty(EventImpl.prototype, "isTrusted", { /** @inheritdoc */ get: function () { return this._isTrusted; }, enumerable: true, configurable: true }); Object.defineProperty(EventImpl.prototype, "timeStamp", { /** @inheritdoc */ get: function () { return this._timeStamp; }, enumerable: true, configurable: true }); /** @inheritdoc */ EventImpl.prototype.initEvent = function (type, bubbles, cancelable) { if (bubbles === void 0) { bubbles = false; } if (cancelable === void 0) { cancelable = false; } /** * 1. If the context object’s dispatch flag is set, then return. */ if (this._dispatchFlag) return; /** * 2. Initialize the context object with type, bubbles, and cancelable. */ algorithm_1.event_initialize(this, type, bubbles, cancelable); }; EventImpl.NONE = 0; EventImpl.CAPTURING_PHASE = 1; EventImpl.AT_TARGET = 2; EventImpl.BUBBLING_PHASE = 3; return EventImpl; }()); exports.EventImpl = EventImpl; /** * Define constants on prototype. */ WebIDLAlgorithm_1.idl_defineConst(EventImpl.prototype, "NONE", 0); WebIDLAlgorithm_1.idl_defineConst(EventImpl.prototype, "CAPTURING_PHASE", 1); WebIDLAlgorithm_1.idl_defineConst(EventImpl.prototype, "AT_TARGET", 2); WebIDLAlgorithm_1.idl_defineConst(EventImpl.prototype, "BUBBLING_PHASE", 3); //# sourceMappingURL=EventImpl.js.map /***/ }), /***/ 69968: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __read = (this && this.__read) || function (o, n) { var m = typeof Symbol === "function" && o[Symbol.iterator]; if (!m) return o; var i = m.call(o), r, ar = [], e; try { while ((n === void 0 || n-- > 0) && !(r = i.next()).done) ar.push(r.value); } catch (error) { e = { error: error }; } finally { try { if (r && !r.done && (m = i["return"])) m.call(i); } finally { if (e) throw e.error; } } return ar; }; Object.defineProperty(exports, "__esModule", ({ value: true })); var DOMException_1 = __nccwpck_require__(13166); var util_1 = __nccwpck_require__(65282); var algorithm_1 = __nccwpck_require__(61); /** * Represents a target to which an event can be dispatched. */ var EventTargetImpl = /** @class */ (function () { /** * Initializes a new instance of `EventTarget`. */ function EventTargetImpl() { } Object.defineProperty(EventTargetImpl.prototype, "_eventListenerList", { get: function () { return this.__eventListenerList || (this.__eventListenerList = []); }, enumerable: true, configurable: true }); Object.defineProperty(EventTargetImpl.prototype, "_eventHandlerMap", { get: function () { return this.__eventHandlerMap || (this.__eventHandlerMap = {}); }, enumerable: true, configurable: true }); /** @inheritdoc */ EventTargetImpl.prototype.addEventListener = function (type, callback, options) { if (options === void 0) { options = { passive: false, once: false, capture: false }; } /** * 1. Let capture, passive, and once be the result of flattening more options. */ var _a = __read(algorithm_1.eventTarget_flattenMore(options), 3), capture = _a[0], passive = _a[1], once = _a[2]; // convert callback function to EventListener, return if null var listenerCallback; if (!callback) { return; } else if (util_1.Guard.isEventListener(callback)) { listenerCallback = callback; } else { listenerCallback = { handleEvent: callback }; } /** * 2. Add an event listener with the context object and an event listener * whose type is type, callback is callback, capture is capture, passive is * passive, and once is once. */ algorithm_1.eventTarget_addEventListener(this, { type: type, callback: listenerCallback, capture: capture, passive: passive, once: once, removed: false }); }; /** @inheritdoc */ EventTargetImpl.prototype.removeEventListener = function (type, callback, options) { /** * TODO: Implement realms * 1. If the context object’s relevant global object is a * ServiceWorkerGlobalScope object and its associated service worker’s * script resource’s has ever been evaluated flag is set, then throw * a TypeError. [SERVICE-WORKERS] */ if (options === void 0) { options = { capture: false }; } /** * 2. Let capture be the result of flattening options. */ var capture = algorithm_1.eventTarget_flatten(options); if (!callback) return; /** * 3. If the context object’s event listener list contains an event listener * whose type is type, callback is callback, and capture is capture, then * remove an event listener with the context object and that event listener. */ for (var i = 0; i < this._eventListenerList.length; i++) { var entry = this._eventListenerList[i]; if (entry.type !== type || entry.capture !== capture) continue; if (util_1.Guard.isEventListener(callback) && entry.callback === callback) { algorithm_1.eventTarget_removeEventListener(this, entry, i); break; } else if (callback && entry.callback.handleEvent === callback) { algorithm_1.eventTarget_removeEventListener(this, entry, i); break; } } }; /** @inheritdoc */ EventTargetImpl.prototype.dispatchEvent = function (event) { /** * 1. If event’s dispatch flag is set, or if its initialized flag is not * set, then throw an "InvalidStateError" DOMException. * 2. Initialize event’s isTrusted attribute to false. * 3. Return the result of dispatching event to the context object. */ if (event._dispatchFlag || !event._initializedFlag) { throw new DOMException_1.InvalidStateError(); } event._isTrusted = false; return algorithm_1.event_dispatch(event, this); }; /** @inheritdoc */ EventTargetImpl.prototype._getTheParent = function (event) { return null; }; return EventTargetImpl; }()); exports.EventTargetImpl = EventTargetImpl; //# sourceMappingURL=EventTargetImpl.js.map /***/ }), /***/ 93969: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var infra_1 = __nccwpck_require__(84251); var algorithm_1 = __nccwpck_require__(61); var util_1 = __nccwpck_require__(65282); var util_2 = __nccwpck_require__(76195); /** * Represents a collection of elements. */ var HTMLCollectionImpl = /** @class */ (function () { /** * Initializes a new instance of `HTMLCollection`. * * @param root - root node * @param filter - node filter */ function HTMLCollectionImpl(root, filter) { this._live = true; this._root = root; this._filter = filter; return new Proxy(this, this); } Object.defineProperty(HTMLCollectionImpl.prototype, "length", { /** @inheritdoc */ get: function () { var _this = this; /** * The length attribute’s getter must return the number of nodes * represented by the collection. */ var count = 0; var node = algorithm_1.tree_getFirstDescendantNode(this._root, false, false, function (e) { return util_1.Guard.isElementNode(e) && _this._filter(e); }); while (node !== null) { count++; node = algorithm_1.tree_getNextDescendantNode(this._root, node, false, false, function (e) { return util_1.Guard.isElementNode(e) && _this._filter(e); }); } return count; }, enumerable: true, configurable: true }); /** @inheritdoc */ HTMLCollectionImpl.prototype.item = function (index) { var _this = this; /** * The item(index) method, when invoked, must return the indexth element * in the collection. If there is no indexth element in the collection, * then the method must return null. */ var i = 0; var node = algorithm_1.tree_getFirstDescendantNode(this._root, false, false, function (e) { return util_1.Guard.isElementNode(e) && _this._filter(e); }); while (node !== null) { if (i === index) return node; else i++; node = algorithm_1.tree_getNextDescendantNode(this._root, node, false, false, function (e) { return util_1.Guard.isElementNode(e) && _this._filter(e); }); } return null; }; /** @inheritdoc */ HTMLCollectionImpl.prototype.namedItem = function (key) { var _this = this; /** * 1. If key is the empty string, return null. * 2. Return the first element in the collection for which at least one of * the following is true: * - it has an ID which is key; * - it is in the HTML namespace and has a name attribute whose value is key; * or null if there is no such element. */ if (key === '') return null; var ele = algorithm_1.tree_getFirstDescendantNode(this._root, false, false, function (e) { return util_1.Guard.isElementNode(e) && _this._filter(e); }); while (ele != null) { if (ele._uniqueIdentifier === key) { return ele; } else if (ele._namespace === infra_1.namespace.HTML) { for (var i = 0; i < ele._attributeList.length; i++) { var attr = ele._attributeList[i]; if (attr._localName === "name" && attr._namespace === null && attr._namespacePrefix === null && attr._value === key) return ele; } } ele = algorithm_1.tree_getNextDescendantNode(this._root, ele, false, false, function (e) { return util_1.Guard.isElementNode(e) && _this._filter(e); }); } return null; }; /** @inheritdoc */ HTMLCollectionImpl.prototype[Symbol.iterator] = function () { var root = this._root; var filter = this._filter; var currentNode = algorithm_1.tree_getFirstDescendantNode(root, false, false, function (e) { return util_1.Guard.isElementNode(e) && filter(e); }); return { next: function () { if (currentNode === null) { return { done: true, value: null }; } else { var result = { done: false, value: currentNode }; currentNode = algorithm_1.tree_getNextDescendantNode(root, currentNode, false, false, function (e) { return util_1.Guard.isElementNode(e) && filter(e); }); return result; } } }; }; /** * Implements a proxy get trap to provide array-like access. */ HTMLCollectionImpl.prototype.get = function (target, key, receiver) { if (!util_2.isString(key) || HTMLCollectionImpl.reservedNames.indexOf(key) !== -1) { return Reflect.get(target, key, receiver); } var index = Number(key); if (isNaN(index)) { return target.namedItem(key) || undefined; } else { return target.item(index) || undefined; } }; /** * Implements a proxy set trap to provide array-like access. */ HTMLCollectionImpl.prototype.set = function (target, key, value, receiver) { if (!util_2.isString(key) || HTMLCollectionImpl.reservedNames.indexOf(key) !== -1) { return Reflect.set(target, key, value, receiver); } var index = Number(key); var node = isNaN(index) ? target.namedItem(key) || undefined : target.item(index) || undefined; if (node && node._parent) { algorithm_1.mutation_replace(node, value, node._parent); return true; } else { return false; } }; /** * Creates a new `HTMLCollection`. * * @param root - root node * @param filter - node filter */ HTMLCollectionImpl._create = function (root, filter) { if (filter === void 0) { filter = (function () { return true; }); } return new HTMLCollectionImpl(root, filter); }; HTMLCollectionImpl.reservedNames = ['_root', '_live', '_filter', 'length', 'item', 'namedItem', 'get', 'set']; return HTMLCollectionImpl; }()); exports.HTMLCollectionImpl = HTMLCollectionImpl; //# sourceMappingURL=HTMLCollectionImpl.js.map /***/ }), /***/ 89616: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; Object.defineProperty(exports, "__esModule", ({ value: true })); var DOMImpl_1 = __nccwpck_require__(14177); var util_1 = __nccwpck_require__(65282); var infra_1 = __nccwpck_require__(84251); /** * Represents an object that can be used to observe mutations to the tree of * nodes. */ var MutationObserverImpl = /** @class */ (function () { /** * Initializes a new instance of `MutationObserver`. * * @param callback - the callback function */ function MutationObserverImpl(callback) { this._nodeList = []; this._recordQueue = []; /** * 1. Let mo be a new MutationObserver object whose callback is callback. * 2. Append mo to mo’s relevant agent’s mutation observers. * 3. Return mo. */ this._callback = callback; var window = DOMImpl_1.dom.window; infra_1.set.append(window._mutationObservers, this); } /** @inheritdoc */ MutationObserverImpl.prototype.observe = function (target, options) { var e_1, _a; options = options || { childList: false, subtree: false }; /** * 1. If either options’s attributeOldValue or attributeFilter is present * and options’s attributes is omitted, then set options’s attributes * to true. * 2. If options’s characterDataOldValue is present and options’s * characterData is omitted, then set options’s characterData to true. * 3. If none of options’s childList, attributes, and characterData is * true, then throw a TypeError. * 4. If options’s attributeOldValue is true and options’s attributes is * false, then throw a TypeError. * 5. If options’s attributeFilter is present and options’s attributes is * false, then throw a TypeError. * 6. If options’s characterDataOldValue is true and options’s characterData * is false, then throw a TypeError. */ if ((options.attributeOldValue !== undefined || options.attributeFilter !== undefined) && options.attributes === undefined) { options.attributes = true; } if (options.characterDataOldValue !== undefined && options.characterData === undefined) { options.characterData = true; } if (!options.childList && !options.attributes && !options.characterData) { throw new TypeError(); } if (options.attributeOldValue && !options.attributes) { throw new TypeError(); } if (options.attributeFilter !== undefined && !options.attributes) { throw new TypeError(); } if (options.characterDataOldValue && !options.characterData) { throw new TypeError(); } /** * 7. For each registered of target’s registered observer list, if * registered’s observer is the context object: */ var isRegistered = false; var coptions = options; var _loop_1 = function (registered) { var e_2, _a; if (registered.observer === this_1) { isRegistered = true; try { /** * 7.1. For each node of the context object’s node list, remove all * transient registered observers whose source is registered from node’s * registered observer list. */ for (var _b = (e_2 = void 0, __values(this_1._nodeList)), _c = _b.next(); !_c.done; _c = _b.next()) { var node = _c.value; infra_1.list.remove(node._registeredObserverList, function (ob) { return util_1.Guard.isTransientRegisteredObserver(ob) && ob.source === registered; }); } } catch (e_2_1) { e_2 = { error: e_2_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_2) throw e_2.error; } } /** * 7.2. Set registered’s options to options. */ registered.options = coptions; } }; var this_1 = this; try { for (var _b = __values(target._registeredObserverList), _c = _b.next(); !_c.done; _c = _b.next()) { var registered = _c.value; _loop_1(registered); } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_1) throw e_1.error; } } /** * 8. Otherwise: * 8.1. Append a new registered observer whose observer is the context * object and options is options to target’s registered observer list. * 8.2. Append target to the context object’s node list. */ if (!isRegistered) { target._registeredObserverList.push({ observer: this, options: options }); this._nodeList.push(target); } }; /** @inheritdoc */ MutationObserverImpl.prototype.disconnect = function () { var e_3, _a; var _this = this; try { /** * 1. For each node of the context object’s node list, remove any * registered observer from node’s registered observer list for which the * context object is the observer. */ for (var _b = __values(this._nodeList), _c = _b.next(); !_c.done; _c = _b.next()) { var node = _c.value; infra_1.list.remove((node)._registeredObserverList, function (ob) { return ob.observer === _this; }); } } catch (e_3_1) { e_3 = { error: e_3_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_3) throw e_3.error; } } /** * 2. Empty the context object’s record queue. */ this._recordQueue = []; }; /** @inheritdoc */ MutationObserverImpl.prototype.takeRecords = function () { /** * 1. Let records be a clone of the context object’s record queue. * 2. Empty the context object’s record queue. * 3. Return records. */ var records = this._recordQueue; this._recordQueue = []; return records; }; return MutationObserverImpl; }()); exports.MutationObserverImpl = MutationObserverImpl; //# sourceMappingURL=MutationObserverImpl.js.map /***/ }), /***/ 6219: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); /** * Represents a mutation record. */ var MutationRecordImpl = /** @class */ (function () { /** * Initializes a new instance of `MutationRecord`. * * @param type - type of mutation: `"attributes"` for an attribute * mutation, `"characterData"` for a mutation to a CharacterData node * and `"childList"` for a mutation to the tree of nodes. * @param target - node affected by the mutation. * @param addedNodes - list of added nodes. * @param removedNodes - list of removed nodes. * @param previousSibling - previous sibling of added or removed nodes. * @param nextSibling - next sibling of added or removed nodes. * @param attributeName - local name of the changed attribute, * and `null` otherwise. * @param attributeNamespace - namespace of the changed attribute, * and `null` otherwise. * @param oldValue - value before mutation: attribute value for an attribute * mutation, node `data` for a mutation to a CharacterData node and `null` * for a mutation to the tree of nodes. */ function MutationRecordImpl(type, target, addedNodes, removedNodes, previousSibling, nextSibling, attributeName, attributeNamespace, oldValue) { this._type = type; this._target = target; this._addedNodes = addedNodes; this._removedNodes = removedNodes; this._previousSibling = previousSibling; this._nextSibling = nextSibling; this._attributeName = attributeName; this._attributeNamespace = attributeNamespace; this._oldValue = oldValue; } Object.defineProperty(MutationRecordImpl.prototype, "type", { /** @inheritdoc */ get: function () { return this._type; }, enumerable: true, configurable: true }); Object.defineProperty(MutationRecordImpl.prototype, "target", { /** @inheritdoc */ get: function () { return this._target; }, enumerable: true, configurable: true }); Object.defineProperty(MutationRecordImpl.prototype, "addedNodes", { /** @inheritdoc */ get: function () { return this._addedNodes; }, enumerable: true, configurable: true }); Object.defineProperty(MutationRecordImpl.prototype, "removedNodes", { /** @inheritdoc */ get: function () { return this._removedNodes; }, enumerable: true, configurable: true }); Object.defineProperty(MutationRecordImpl.prototype, "previousSibling", { /** @inheritdoc */ get: function () { return this._previousSibling; }, enumerable: true, configurable: true }); Object.defineProperty(MutationRecordImpl.prototype, "nextSibling", { /** @inheritdoc */ get: function () { return this._nextSibling; }, enumerable: true, configurable: true }); Object.defineProperty(MutationRecordImpl.prototype, "attributeName", { /** @inheritdoc */ get: function () { return this._attributeName; }, enumerable: true, configurable: true }); Object.defineProperty(MutationRecordImpl.prototype, "attributeNamespace", { /** @inheritdoc */ get: function () { return this._attributeNamespace; }, enumerable: true, configurable: true }); Object.defineProperty(MutationRecordImpl.prototype, "oldValue", { /** @inheritdoc */ get: function () { return this._oldValue; }, enumerable: true, configurable: true }); /** * Creates a new `MutationRecord`. * * @param type - type of mutation: `"attributes"` for an attribute * mutation, `"characterData"` for a mutation to a CharacterData node * and `"childList"` for a mutation to the tree of nodes. * @param target - node affected by the mutation. * @param addedNodes - list of added nodes. * @param removedNodes - list of removed nodes. * @param previousSibling - previous sibling of added or removed nodes. * @param nextSibling - next sibling of added or removed nodes. * @param attributeName - local name of the changed attribute, * and `null` otherwise. * @param attributeNamespace - namespace of the changed attribute, * and `null` otherwise. * @param oldValue - value before mutation: attribute value for an attribute * mutation, node `data` for a mutation to a CharacterData node and `null` * for a mutation to the tree of nodes. */ MutationRecordImpl._create = function (type, target, addedNodes, removedNodes, previousSibling, nextSibling, attributeName, attributeNamespace, oldValue) { return new MutationRecordImpl(type, target, addedNodes, removedNodes, previousSibling, nextSibling, attributeName, attributeNamespace, oldValue); }; return MutationRecordImpl; }()); exports.MutationRecordImpl = MutationRecordImpl; //# sourceMappingURL=MutationRecordImpl.js.map /***/ }), /***/ 57206: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __extends = (this && this.__extends) || (function () { var extendStatics = function (d, b) { extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; }; return extendStatics(d, b); }; return function (d, b) { extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; })(); Object.defineProperty(exports, "__esModule", ({ value: true })); var DOMException_1 = __nccwpck_require__(13166); var algorithm_1 = __nccwpck_require__(61); /** * Represents a collection of attributes. */ var NamedNodeMapImpl = /** @class */ (function (_super) { __extends(NamedNodeMapImpl, _super); /** * Initializes a new instance of `NamedNodeMap`. * * @param element - parent element */ function NamedNodeMapImpl(element) { var _this = _super.call(this) || this; _this._element = element; // TODO: This workaround is needed to extend Array in ES5 Object.setPrototypeOf(_this, NamedNodeMapImpl.prototype); return _this; } NamedNodeMapImpl.prototype._asArray = function () { return this; }; /** @inheritdoc */ NamedNodeMapImpl.prototype.item = function (index) { /** * 1. If index is equal to or greater than context object’s attribute list’s * size, then return null. * 2. Otherwise, return context object’s attribute list[index]. * */ return this[index] || null; }; /** @inheritdoc */ NamedNodeMapImpl.prototype.getNamedItem = function (qualifiedName) { /** * The getNamedItem(qualifiedName) method, when invoked, must return the * result of getting an attribute given qualifiedName and element. */ return algorithm_1.element_getAnAttributeByName(qualifiedName, this._element); }; /** @inheritdoc */ NamedNodeMapImpl.prototype.getNamedItemNS = function (namespace, localName) { /** * The getNamedItemNS(namespace, localName) method, when invoked, must * return the result of getting an attribute given namespace, localName, * and element. */ return algorithm_1.element_getAnAttributeByNamespaceAndLocalName(namespace || '', localName, this._element); }; /** @inheritdoc */ NamedNodeMapImpl.prototype.setNamedItem = function (attr) { /** * The setNamedItem(attr) and setNamedItemNS(attr) methods, when invoked, * must return the result of setting an attribute given attr and element. */ return algorithm_1.element_setAnAttribute(attr, this._element); }; /** @inheritdoc */ NamedNodeMapImpl.prototype.setNamedItemNS = function (attr) { return algorithm_1.element_setAnAttribute(attr, this._element); }; /** @inheritdoc */ NamedNodeMapImpl.prototype.removeNamedItem = function (qualifiedName) { /** * 1. Let attr be the result of removing an attribute given qualifiedName * and element. * 2. If attr is null, then throw a "NotFoundError" DOMException. * 3. Return attr. */ var attr = algorithm_1.element_removeAnAttributeByName(qualifiedName, this._element); if (attr === null) throw new DOMException_1.NotFoundError(); return attr; }; /** @inheritdoc */ NamedNodeMapImpl.prototype.removeNamedItemNS = function (namespace, localName) { /** * 1. Let attr be the result of removing an attribute given namespace, * localName, and element. * 2. If attr is null, then throw a "NotFoundError" DOMException. * 3. Return attr. */ var attr = algorithm_1.element_removeAnAttributeByNamespaceAndLocalName(namespace || '', localName, this._element); if (attr === null) throw new DOMException_1.NotFoundError(); return attr; }; /** * Creates a new `NamedNodeMap`. * * @param element - parent element */ NamedNodeMapImpl._create = function (element) { return new NamedNodeMapImpl(element); }; return NamedNodeMapImpl; }(Array)); exports.NamedNodeMapImpl = NamedNodeMapImpl; //# sourceMappingURL=NamedNodeMapImpl.js.map /***/ }), /***/ 12355: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var interfaces_1 = __nccwpck_require__(27305); var WebIDLAlgorithm_1 = __nccwpck_require__(45457); /** * Represents a node filter. */ var NodeFilterImpl = /** @class */ (function () { /** * Initializes a new instance of `NodeFilter`. */ function NodeFilterImpl() { } /** * Callback function. */ NodeFilterImpl.prototype.acceptNode = function (node) { return interfaces_1.FilterResult.Accept; }; /** * Creates a new `NodeFilter`. */ NodeFilterImpl._create = function () { return new NodeFilterImpl(); }; NodeFilterImpl.FILTER_ACCEPT = 1; NodeFilterImpl.FILTER_REJECT = 2; NodeFilterImpl.FILTER_SKIP = 3; NodeFilterImpl.SHOW_ALL = 0xffffffff; NodeFilterImpl.SHOW_ELEMENT = 0x1; NodeFilterImpl.SHOW_ATTRIBUTE = 0x2; NodeFilterImpl.SHOW_TEXT = 0x4; NodeFilterImpl.SHOW_CDATA_SECTION = 0x8; NodeFilterImpl.SHOW_ENTITY_REFERENCE = 0x10; NodeFilterImpl.SHOW_ENTITY = 0x20; NodeFilterImpl.SHOW_PROCESSING_INSTRUCTION = 0x40; NodeFilterImpl.SHOW_COMMENT = 0x80; NodeFilterImpl.SHOW_DOCUMENT = 0x100; NodeFilterImpl.SHOW_DOCUMENT_TYPE = 0x200; NodeFilterImpl.SHOW_DOCUMENT_FRAGMENT = 0x400; NodeFilterImpl.SHOW_NOTATION = 0x800; return NodeFilterImpl; }()); exports.NodeFilterImpl = NodeFilterImpl; /** * Define constants on prototype. */ WebIDLAlgorithm_1.idl_defineConst(NodeFilterImpl.prototype, "FILTER_ACCEPT", 1); WebIDLAlgorithm_1.idl_defineConst(NodeFilterImpl.prototype, "FILTER_REJECT", 2); WebIDLAlgorithm_1.idl_defineConst(NodeFilterImpl.prototype, "FILTER_SKIP", 3); WebIDLAlgorithm_1.idl_defineConst(NodeFilterImpl.prototype, "SHOW_ALL", 0xffffffff); WebIDLAlgorithm_1.idl_defineConst(NodeFilterImpl.prototype, "SHOW_ELEMENT", 0x1); WebIDLAlgorithm_1.idl_defineConst(NodeFilterImpl.prototype, "SHOW_ATTRIBUTE", 0x2); WebIDLAlgorithm_1.idl_defineConst(NodeFilterImpl.prototype, "SHOW_TEXT", 0x4); WebIDLAlgorithm_1.idl_defineConst(NodeFilterImpl.prototype, "SHOW_CDATA_SECTION", 0x8); WebIDLAlgorithm_1.idl_defineConst(NodeFilterImpl.prototype, "SHOW_ENTITY_REFERENCE", 0x10); WebIDLAlgorithm_1.idl_defineConst(NodeFilterImpl.prototype, "SHOW_ENTITY", 0x20); WebIDLAlgorithm_1.idl_defineConst(NodeFilterImpl.prototype, "SHOW_PROCESSING_INSTRUCTION", 0x40); WebIDLAlgorithm_1.idl_defineConst(NodeFilterImpl.prototype, "SHOW_COMMENT", 0x80); WebIDLAlgorithm_1.idl_defineConst(NodeFilterImpl.prototype, "SHOW_DOCUMENT", 0x100); WebIDLAlgorithm_1.idl_defineConst(NodeFilterImpl.prototype, "SHOW_DOCUMENT_TYPE", 0x200); WebIDLAlgorithm_1.idl_defineConst(NodeFilterImpl.prototype, "SHOW_DOCUMENT_FRAGMENT", 0x400); WebIDLAlgorithm_1.idl_defineConst(NodeFilterImpl.prototype, "SHOW_NOTATION", 0x800); //# sourceMappingURL=NodeFilterImpl.js.map /***/ }), /***/ 91745: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __extends = (this && this.__extends) || (function () { var extendStatics = function (d, b) { extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; }; return extendStatics(d, b); }; return function (d, b) { extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; })(); var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; Object.defineProperty(exports, "__esModule", ({ value: true })); var DOMImpl_1 = __nccwpck_require__(14177); var interfaces_1 = __nccwpck_require__(27305); var EventTargetImpl_1 = __nccwpck_require__(69968); var util_1 = __nccwpck_require__(65282); var DOMException_1 = __nccwpck_require__(13166); var algorithm_1 = __nccwpck_require__(61); var URLAlgorithm_1 = __nccwpck_require__(53568); var WebIDLAlgorithm_1 = __nccwpck_require__(45457); /** * Represents a generic XML node. */ var NodeImpl = /** @class */ (function (_super) { __extends(NodeImpl, _super); /** * Initializes a new instance of `Node`. */ function NodeImpl() { var _this = _super.call(this) || this; _this._parent = null; _this._firstChild = null; _this._lastChild = null; _this._previousSibling = null; _this._nextSibling = null; return _this; } Object.defineProperty(NodeImpl.prototype, "_childNodes", { get: function () { return this.__childNodes || (this.__childNodes = algorithm_1.create_nodeList(this)); }, enumerable: true, configurable: true }); Object.defineProperty(NodeImpl.prototype, "_nodeDocument", { get: function () { return this._nodeDocumentOverride || DOMImpl_1.dom.window._associatedDocument; }, set: function (val) { this._nodeDocumentOverride = val; }, enumerable: true, configurable: true }); Object.defineProperty(NodeImpl.prototype, "_registeredObserverList", { get: function () { return this.__registeredObserverList || (this.__registeredObserverList = []); }, enumerable: true, configurable: true }); Object.defineProperty(NodeImpl.prototype, "nodeType", { /** @inheritdoc */ get: function () { return this._nodeType; }, enumerable: true, configurable: true }); Object.defineProperty(NodeImpl.prototype, "nodeName", { /** * Returns a string appropriate for the type of node. */ get: function () { if (util_1.Guard.isElementNode(this)) { return this._htmlUppercasedQualifiedName; } else if (util_1.Guard.isAttrNode(this)) { return this._qualifiedName; } else if (util_1.Guard.isExclusiveTextNode(this)) { return "#text"; } else if (util_1.Guard.isCDATASectionNode(this)) { return "#cdata-section"; } else if (util_1.Guard.isProcessingInstructionNode(this)) { return this._target; } else if (util_1.Guard.isCommentNode(this)) { return "#comment"; } else if (util_1.Guard.isDocumentNode(this)) { return "#document"; } else if (util_1.Guard.isDocumentTypeNode(this)) { return this._name; } else if (util_1.Guard.isDocumentFragmentNode(this)) { return "#document-fragment"; } else { return ""; } }, enumerable: true, configurable: true }); Object.defineProperty(NodeImpl.prototype, "baseURI", { /** * Gets the absolute base URL of the node. */ get: function () { /** * The baseURI attribute’s getter must return node document’s document * base URL, serialized. * TODO: Implement in HTML DOM * https://html.spec.whatwg.org/multipage/urls-and-fetching.html#document-base-url */ return URLAlgorithm_1.urlSerializer(this._nodeDocument._URL); }, enumerable: true, configurable: true }); Object.defineProperty(NodeImpl.prototype, "isConnected", { /** * Returns whether the node is rooted to a document node. */ get: function () { /** * The isConnected attribute’s getter must return true, if context object * is connected, and false otherwise. */ return util_1.Guard.isElementNode(this) && algorithm_1.shadowTree_isConnected(this); }, enumerable: true, configurable: true }); Object.defineProperty(NodeImpl.prototype, "ownerDocument", { /** * Returns the parent document. */ get: function () { /** * The ownerDocument attribute’s getter must return null, if the context * object is a document, and the context object’s node document otherwise. * _Note:_ The node document of a document is that document itself. All * nodes have a node document at all times. */ if (this._nodeType === interfaces_1.NodeType.Document) return null; else return this._nodeDocument; }, enumerable: true, configurable: true }); /** * Returns the root node. * * @param options - if options has `composed = true` this function * returns the node's shadow-including root, otherwise it returns * the node's root node. */ NodeImpl.prototype.getRootNode = function (options) { /** * The getRootNode(options) method, when invoked, must return context * object’s shadow-including root if options’s composed is true, * and context object’s root otherwise. */ return algorithm_1.tree_rootNode(this, !!options && options.composed); }; Object.defineProperty(NodeImpl.prototype, "parentNode", { /** * Returns the parent node. */ get: function () { /** * The parentNode attribute’s getter must return the context object’s parent. * _Note:_ An Attr node has no parent. */ if (this._nodeType === interfaces_1.NodeType.Attribute) { return null; } else { return this._parent; } }, enumerable: true, configurable: true }); Object.defineProperty(NodeImpl.prototype, "parentElement", { /** * Returns the parent element. */ get: function () { /** * The parentElement attribute’s getter must return the context object’s * parent element. */ if (this._parent && util_1.Guard.isElementNode(this._parent)) { return this._parent; } else { return null; } }, enumerable: true, configurable: true }); /** * Determines whether a node has any children. */ NodeImpl.prototype.hasChildNodes = function () { /** * The hasChildNodes() method, when invoked, must return true if the context * object has children, and false otherwise. */ return (this._firstChild !== null); }; Object.defineProperty(NodeImpl.prototype, "childNodes", { /** * Returns a {@link NodeList} of child nodes. */ get: function () { /** * The childNodes attribute’s getter must return a NodeList rooted at the * context object matching only children. */ return this._childNodes; }, enumerable: true, configurable: true }); Object.defineProperty(NodeImpl.prototype, "firstChild", { /** * Returns the first child node. */ get: function () { /** * The firstChild attribute’s getter must return the context object’s first * child. */ return this._firstChild; }, enumerable: true, configurable: true }); Object.defineProperty(NodeImpl.prototype, "lastChild", { /** * Returns the last child node. */ get: function () { /** * The lastChild attribute’s getter must return the context object’s last * child. */ return this._lastChild; }, enumerable: true, configurable: true }); Object.defineProperty(NodeImpl.prototype, "previousSibling", { /** * Returns the previous sibling node. */ get: function () { /** * The previousSibling attribute’s getter must return the context object’s * previous sibling. * _Note:_ An Attr node has no siblings. */ return this._previousSibling; }, enumerable: true, configurable: true }); Object.defineProperty(NodeImpl.prototype, "nextSibling", { /** * Returns the next sibling node. */ get: function () { /** * The nextSibling attribute’s getter must return the context object’s * next sibling. */ return this._nextSibling; }, enumerable: true, configurable: true }); Object.defineProperty(NodeImpl.prototype, "nodeValue", { /** * Gets or sets the data associated with a {@link CharacterData} node or the * value of an {@link @Attr} node. For other node types returns `null`. */ get: function () { if (util_1.Guard.isAttrNode(this)) { return this._value; } else if (util_1.Guard.isCharacterDataNode(this)) { return this._data; } else { return null; } }, set: function (value) { if (value === null) { value = ''; } if (util_1.Guard.isAttrNode(this)) { algorithm_1.attr_setAnExistingAttributeValue(this, value); } else if (util_1.Guard.isCharacterDataNode(this)) { algorithm_1.characterData_replaceData(this, 0, this._data.length, value); } }, enumerable: true, configurable: true }); Object.defineProperty(NodeImpl.prototype, "textContent", { /** * Returns the concatenation of data of all the {@link Text} * node descendants in tree order. When set, replaces the text * contents of the node with the given value. */ get: function () { if (util_1.Guard.isDocumentFragmentNode(this) || util_1.Guard.isElementNode(this)) { return algorithm_1.text_descendantTextContent(this); } else if (util_1.Guard.isAttrNode(this)) { return this._value; } else if (util_1.Guard.isCharacterDataNode(this)) { return this._data; } else { return null; } }, set: function (value) { if (value === null) { value = ''; } if (util_1.Guard.isDocumentFragmentNode(this) || util_1.Guard.isElementNode(this)) { algorithm_1.node_stringReplaceAll(value, this); } else if (util_1.Guard.isAttrNode(this)) { algorithm_1.attr_setAnExistingAttributeValue(this, value); } else if (util_1.Guard.isCharacterDataNode(this)) { algorithm_1.characterData_replaceData(this, 0, algorithm_1.tree_nodeLength(this), value); } }, enumerable: true, configurable: true }); /** * Puts all {@link Text} nodes in the full depth of the sub-tree * underneath this node into a "normal" form where only markup * (e.g., tags, comments, processing instructions, CDATA sections, * and entity references) separates {@link Text} nodes, i.e., there * are no adjacent Text nodes. */ NodeImpl.prototype.normalize = function () { var e_1, _a, e_2, _b; /** * The normalize() method, when invoked, must run these steps for each * descendant exclusive Text node node of context object: */ var descendantNodes = []; var node = algorithm_1.tree_getFirstDescendantNode(this, false, false, function (e) { return util_1.Guard.isExclusiveTextNode(e); }); while (node !== null) { descendantNodes.push(node); node = algorithm_1.tree_getNextDescendantNode(this, node, false, false, function (e) { return util_1.Guard.isExclusiveTextNode(e); }); } for (var i = 0; i < descendantNodes.length; i++) { var node_1 = descendantNodes[i]; if (node_1._parent === null) continue; /** * 1. Let length be node’s length. * 2. If length is zero, then remove node and continue with the next * exclusive Text node, if any. */ var length = algorithm_1.tree_nodeLength(node_1); if (length === 0) { algorithm_1.mutation_remove(node_1, node_1._parent); continue; } /** * 3. Let data be the concatenation of the data of node’s contiguous * exclusive Text nodes (excluding itself), in tree order. */ var textSiblings = []; var data = ''; try { for (var _c = (e_1 = void 0, __values(algorithm_1.text_contiguousExclusiveTextNodes(node_1))), _d = _c.next(); !_d.done; _d = _c.next()) { var sibling = _d.value; textSiblings.push(sibling); data += sibling._data; } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_d && !_d.done && (_a = _c.return)) _a.call(_c); } finally { if (e_1) throw e_1.error; } } /** * 4. Replace data with node node, offset length, count 0, and data data. */ algorithm_1.characterData_replaceData(node_1, length, 0, data); /** * 5. Let currentNode be node’s next sibling. * 6. While currentNode is an exclusive Text node: */ if (DOMImpl_1.dom.rangeList.size !== 0) { var currentNode = node_1._nextSibling; while (currentNode !== null && util_1.Guard.isExclusiveTextNode(currentNode)) { /** * 6.1. For each live range whose start node is currentNode, add length * to its start offset and set its start node to node. * 6.2. For each live range whose end node is currentNode, add length to * its end offset and set its end node to node. * 6.3. For each live range whose start node is currentNode’s parent and * start offset is currentNode’s index, set its start node to node and * its start offset to length. * 6.4. For each live range whose end node is currentNode’s parent and * end offset is currentNode’s index, set its end node to node and its * end offset to length. */ var cn = currentNode; var index = algorithm_1.tree_index(cn); try { for (var _e = (e_2 = void 0, __values(DOMImpl_1.dom.rangeList)), _f = _e.next(); !_f.done; _f = _e.next()) { var range = _f.value; if (range._start[0] === cn) { range._start[0] = node_1; range._start[1] += length; } if (range._end[0] === cn) { range._end[0] = node_1; range._end[1] += length; } if (range._start[0] === cn._parent && range._start[1] === index) { range._start[0] = node_1; range._start[1] = length; } if (range._end[0] === cn._parent && range._end[1] === index) { range._end[0] = node_1; range._end[1] = length; } } } catch (e_2_1) { e_2 = { error: e_2_1 }; } finally { try { if (_f && !_f.done && (_b = _e.return)) _b.call(_e); } finally { if (e_2) throw e_2.error; } } /** * 6.5. Add currentNode’s length to length. * 6.6. Set currentNode to its next sibling. */ length += algorithm_1.tree_nodeLength(currentNode); currentNode = currentNode._nextSibling; } } /** * 7. Remove node’s contiguous exclusive Text nodes (excluding itself), * in tree order. */ for (var i_1 = 0; i_1 < textSiblings.length; i_1++) { var sibling = textSiblings[i_1]; if (sibling._parent === null) continue; algorithm_1.mutation_remove(sibling, sibling._parent); } } }; /** * Returns a duplicate of this node, i.e., serves as a generic copy * constructor for nodes. The duplicate node has no parent * ({@link parentNode} returns `null`). * * @param deep - if `true`, recursively clone the subtree under the * specified node. If `false`, clone only the node itself (and its * attributes, if it is an {@link Element}). */ NodeImpl.prototype.cloneNode = function (deep) { if (deep === void 0) { deep = false; } /** * 1. If context object is a shadow root, then throw a "NotSupportedError" * DOMException. * 2. Return a clone of the context object, with the clone children flag set * if deep is true. */ if (util_1.Guard.isShadowRoot(this)) throw new DOMException_1.NotSupportedError(); return algorithm_1.node_clone(this, null, deep); }; /** * Determines if the given node is equal to this one. * * @param node - the node to compare with */ NodeImpl.prototype.isEqualNode = function (node) { if (node === void 0) { node = null; } /** * The isEqualNode(otherNode) method, when invoked, must return true if * otherNode is non-null and context object equals otherNode, and false * otherwise. */ return (node !== null && algorithm_1.node_equals(this, node)); }; /** * Determines if the given node is reference equal to this one. * * @param node - the node to compare with */ NodeImpl.prototype.isSameNode = function (node) { if (node === void 0) { node = null; } /** * The isSameNode(otherNode) method, when invoked, must return true if * otherNode is context object, and false otherwise. */ return (this === node); }; /** * Returns a bitmask indicating the position of the given `node` * relative to this node. */ NodeImpl.prototype.compareDocumentPosition = function (other) { /** * 1. If context object is other, then return zero. * 2. Let node1 be other and node2 be context object. * 3. Let attr1 and attr2 be null. * attr1’s element. */ if (other === this) return 0; var node1 = other; var node2 = this; var attr1 = null; var attr2 = null; /** * 4. If node1 is an attribute, then set attr1 to node1 and node1 to * attr1’s element. */ if (util_1.Guard.isAttrNode(node1)) { attr1 = node1; node1 = attr1._element; } /** * 5. If node2 is an attribute, then: */ if (util_1.Guard.isAttrNode(node2)) { /** * 5.1. Set attr2 to node2 and node2 to attr2’s element. */ attr2 = node2; node2 = attr2._element; /** * 5.2. If attr1 and node1 are non-null, and node2 is node1, then: */ if (attr1 && node1 && (node1 === node2)) { /** * 5.2. For each attr in node2’s attribute list: */ for (var i = 0; i < node2._attributeList.length; i++) { var attr = node2._attributeList[i]; /** * 5.2.1. If attr equals attr1, then return the result of adding * DOCUMENT_POSITION_IMPLEMENTATION_SPECIFIC and * DOCUMENT_POSITION_PRECEDING. * 5.2.2. If attr equals attr2, then return the result of adding * DOCUMENT_POSITION_IMPLEMENTATION_SPECIFIC and * DOCUMENT_POSITION_FOLLOWING. */ if (algorithm_1.node_equals(attr, attr1)) { return interfaces_1.Position.ImplementationSpecific | interfaces_1.Position.Preceding; } else if (algorithm_1.node_equals(attr, attr2)) { return interfaces_1.Position.ImplementationSpecific | interfaces_1.Position.Following; } } } } /** * 6. If node1 or node2 is null, or node1’s root is not node2’s root, then * return the result of adding DOCUMENT_POSITION_DISCONNECTED, * DOCUMENT_POSITION_IMPLEMENTATION_SPECIFIC, and either * DOCUMENT_POSITION_PRECEDING or DOCUMENT_POSITION_FOLLOWING, * with the constraint that this is to be consistent, together. */ if (node1 === null || node2 === null || algorithm_1.tree_rootNode(node1) !== algorithm_1.tree_rootNode(node2)) { // nodes are disconnected // return a random result but cache the value for consistency return interfaces_1.Position.Disconnected | interfaces_1.Position.ImplementationSpecific | (DOMImpl_1.dom.compareCache.check(this, other) ? interfaces_1.Position.Preceding : interfaces_1.Position.Following); } /** * 7. If node1 is an ancestor of node2 and attr1 is null, or node1 is node2 * and attr2 is non-null, then return the result of adding * DOCUMENT_POSITION_CONTAINS to DOCUMENT_POSITION_PRECEDING. */ if ((!attr1 && algorithm_1.tree_isAncestorOf(node2, node1)) || (attr2 && (node1 === node2))) { return interfaces_1.Position.Contains | interfaces_1.Position.Preceding; } /** * 8. If node1 is a descendant of node2 and attr2 is null, or node1 is node2 * and attr1 is non-null, then return the result of adding * DOCUMENT_POSITION_CONTAINED_BY to DOCUMENT_POSITION_FOLLOWING. */ if ((!attr2 && algorithm_1.tree_isDescendantOf(node2, node1)) || (attr1 && (node1 === node2))) { return interfaces_1.Position.ContainedBy | interfaces_1.Position.Following; } /** * 9. If node1 is preceding node2, then return DOCUMENT_POSITION_PRECEDING. */ if (algorithm_1.tree_isPreceding(node2, node1)) return interfaces_1.Position.Preceding; /** * 10. Return DOCUMENT_POSITION_FOLLOWING. */ return interfaces_1.Position.Following; }; /** * Returns `true` if given node is an inclusive descendant of this * node, and `false` otherwise (including when other node is `null`). * * @param other - the node to check */ NodeImpl.prototype.contains = function (other) { /** * The contains(other) method, when invoked, must return true if other is an * inclusive descendant of context object, and false otherwise (including * when other is null). */ if (other === null) return false; return algorithm_1.tree_isDescendantOf(this, other, true); }; /** * Returns the prefix for a given namespace URI, if present, and * `null` if not. * * @param namespace - the namespace to search */ NodeImpl.prototype.lookupPrefix = function (namespace) { /** * 1. If namespace is null or the empty string, then return null. * 2. Switch on the context object: */ if (!namespace) return null; if (util_1.Guard.isElementNode(this)) { /** * Return the result of locating a namespace prefix for it using * namespace. */ return algorithm_1.node_locateANamespacePrefix(this, namespace); } else if (util_1.Guard.isDocumentNode(this)) { /** * Return the result of locating a namespace prefix for its document * element, if its document element is non-null, and null otherwise. */ if (this.documentElement === null) { return null; } else { return algorithm_1.node_locateANamespacePrefix(this.documentElement, namespace); } } else if (util_1.Guard.isDocumentTypeNode(this) || util_1.Guard.isDocumentFragmentNode(this)) { return null; } else if (util_1.Guard.isAttrNode(this)) { /** * Return the result of locating a namespace prefix for its element, * if its element is non-null, and null otherwise. */ if (this._element === null) { return null; } else { return algorithm_1.node_locateANamespacePrefix(this._element, namespace); } } else { /** * Return the result of locating a namespace prefix for its parent * element, if its parent element is non-null, and null otherwise. */ if (this._parent !== null && util_1.Guard.isElementNode(this._parent)) { return algorithm_1.node_locateANamespacePrefix(this._parent, namespace); } else { return null; } } }; /** * Returns the namespace URI for a given prefix if present, and `null` * if not. * * @param prefix - the prefix to search */ NodeImpl.prototype.lookupNamespaceURI = function (prefix) { /** * 1. If prefix is the empty string, then set it to null. * 2. Return the result of running locate a namespace for the context object * using prefix. */ return algorithm_1.node_locateANamespace(this, prefix || null); }; /** * Returns `true` if the namespace is the default namespace on this * node or `false` if not. * * @param namespace - the namespace to check */ NodeImpl.prototype.isDefaultNamespace = function (namespace) { /** * 1. If namespace is the empty string, then set it to null. * 2. Let defaultNamespace be the result of running locate a namespace for * context object using null. * 3. Return true if defaultNamespace is the same as namespace, and false otherwise. */ if (!namespace) namespace = null; var defaultNamespace = algorithm_1.node_locateANamespace(this, null); return (defaultNamespace === namespace); }; /** * Inserts the node `newChild` before the existing child node * `refChild`. If `refChild` is `null`, inserts `newChild` at the end * of the list of children. * * If `newChild` is a {@link DocumentFragment} object, all of its * children are inserted, in the same order, before `refChild`. * * If `newChild` is already in the tree, it is first removed. * * @param newChild - the node to insert * @param refChild - the node before which the new node must be * inserted * * @returns the newly inserted child node */ NodeImpl.prototype.insertBefore = function (newChild, refChild) { /** * The insertBefore(node, child) method, when invoked, must return the * result of pre-inserting node into context object before child. */ return algorithm_1.mutation_preInsert(newChild, this, refChild); }; /** * Adds the node `newChild` to the end of the list of children of this * node, and returns it. If `newChild` is already in the tree, it is * first removed. * * If `newChild` is a {@link DocumentFragment} object, the entire * contents of the document fragment are moved into the child list of * this node. * * @param newChild - the node to add * * @returns the newly inserted child node */ NodeImpl.prototype.appendChild = function (newChild) { /** * The appendChild(node) method, when invoked, must return the result of * appending node to context object. */ return algorithm_1.mutation_append(newChild, this); }; /** * Replaces the child node `oldChild` with `newChild` in the list of * children, and returns the `oldChild` node. If `newChild` is already * in the tree, it is first removed. * * @param newChild - the new node to put in the child list * @param oldChild - the node being replaced in the list * * @returns the removed child node */ NodeImpl.prototype.replaceChild = function (newChild, oldChild) { /** * The replaceChild(node, child) method, when invoked, must return the * result of replacing child with node within context object. */ return algorithm_1.mutation_replace(oldChild, newChild, this); }; /** * Removes the child node indicated by `oldChild` from the list of * children, and returns it. * * @param oldChild - the node being removed from the list * * @returns the removed child node */ NodeImpl.prototype.removeChild = function (oldChild) { /** * The removeChild(child) method, when invoked, must return the result of * pre-removing child from context object. */ return algorithm_1.mutation_preRemove(oldChild, this); }; /** * Gets the parent event target for the given event. * * @param event - an event */ NodeImpl.prototype._getTheParent = function (event) { /** * A node’s get the parent algorithm, given an event, returns the node’s * assigned slot, if node is assigned, and node’s parent otherwise. */ if (util_1.Guard.isSlotable(this) && algorithm_1.shadowTree_isAssigned(this)) { return this._assignedSlot; } else { return this._parent; } }; NodeImpl.ELEMENT_NODE = 1; NodeImpl.ATTRIBUTE_NODE = 2; NodeImpl.TEXT_NODE = 3; NodeImpl.CDATA_SECTION_NODE = 4; NodeImpl.ENTITY_REFERENCE_NODE = 5; NodeImpl.ENTITY_NODE = 6; NodeImpl.PROCESSING_INSTRUCTION_NODE = 7; NodeImpl.COMMENT_NODE = 8; NodeImpl.DOCUMENT_NODE = 9; NodeImpl.DOCUMENT_TYPE_NODE = 10; NodeImpl.DOCUMENT_FRAGMENT_NODE = 11; NodeImpl.NOTATION_NODE = 12; NodeImpl.DOCUMENT_POSITION_DISCONNECTED = 0x01; NodeImpl.DOCUMENT_POSITION_PRECEDING = 0x02; NodeImpl.DOCUMENT_POSITION_FOLLOWING = 0x04; NodeImpl.DOCUMENT_POSITION_CONTAINS = 0x08; NodeImpl.DOCUMENT_POSITION_CONTAINED_BY = 0x10; NodeImpl.DOCUMENT_POSITION_IMPLEMENTATION_SPECIFIC = 0x20; return NodeImpl; }(EventTargetImpl_1.EventTargetImpl)); exports.NodeImpl = NodeImpl; /** * A performance tweak to share an empty set between all node classes. This will * be overwritten by element, document and document fragment nodes to supply an * actual set of nodes. */ NodeImpl.prototype._children = new util_1.EmptySet(); /** * Define constants on prototype. */ WebIDLAlgorithm_1.idl_defineConst(NodeImpl.prototype, "ELEMENT_NODE", 1); WebIDLAlgorithm_1.idl_defineConst(NodeImpl.prototype, "ATTRIBUTE_NODE", 2); WebIDLAlgorithm_1.idl_defineConst(NodeImpl.prototype, "TEXT_NODE", 3); WebIDLAlgorithm_1.idl_defineConst(NodeImpl.prototype, "CDATA_SECTION_NODE", 4); WebIDLAlgorithm_1.idl_defineConst(NodeImpl.prototype, "ENTITY_REFERENCE_NODE", 5); WebIDLAlgorithm_1.idl_defineConst(NodeImpl.prototype, "ENTITY_NODE", 6); WebIDLAlgorithm_1.idl_defineConst(NodeImpl.prototype, "PROCESSING_INSTRUCTION_NODE", 7); WebIDLAlgorithm_1.idl_defineConst(NodeImpl.prototype, "COMMENT_NODE", 8); WebIDLAlgorithm_1.idl_defineConst(NodeImpl.prototype, "DOCUMENT_NODE", 9); WebIDLAlgorithm_1.idl_defineConst(NodeImpl.prototype, "DOCUMENT_TYPE_NODE", 10); WebIDLAlgorithm_1.idl_defineConst(NodeImpl.prototype, "DOCUMENT_FRAGMENT_NODE", 11); WebIDLAlgorithm_1.idl_defineConst(NodeImpl.prototype, "NOTATION_NODE", 12); WebIDLAlgorithm_1.idl_defineConst(NodeImpl.prototype, "DOCUMENT_POSITION_DISCONNECTED", 0x01); WebIDLAlgorithm_1.idl_defineConst(NodeImpl.prototype, "DOCUMENT_POSITION_PRECEDING", 0x02); WebIDLAlgorithm_1.idl_defineConst(NodeImpl.prototype, "DOCUMENT_POSITION_FOLLOWING", 0x04); WebIDLAlgorithm_1.idl_defineConst(NodeImpl.prototype, "DOCUMENT_POSITION_CONTAINS", 0x08); WebIDLAlgorithm_1.idl_defineConst(NodeImpl.prototype, "DOCUMENT_POSITION_CONTAINED_BY", 0x10); WebIDLAlgorithm_1.idl_defineConst(NodeImpl.prototype, "DOCUMENT_POSITION_IMPLEMENTATION_SPECIFIC", 0x20); //# sourceMappingURL=NodeImpl.js.map /***/ }), /***/ 61997: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __extends = (this && this.__extends) || (function () { var extendStatics = function (d, b) { extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; }; return extendStatics(d, b); }; return function (d, b) { extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; })(); Object.defineProperty(exports, "__esModule", ({ value: true })); var TraverserImpl_1 = __nccwpck_require__(39782); var algorithm_1 = __nccwpck_require__(61); /** * Represents an object which can be used to iterate through the nodes * of a subtree. */ var NodeIteratorImpl = /** @class */ (function (_super) { __extends(NodeIteratorImpl, _super); /** * Initializes a new instance of `NodeIterator`. */ function NodeIteratorImpl(root, reference, pointerBeforeReference) { var _this = _super.call(this, root) || this; _this._iteratorCollection = undefined; _this._reference = reference; _this._pointerBeforeReference = pointerBeforeReference; algorithm_1.nodeIterator_iteratorList().add(_this); return _this; } Object.defineProperty(NodeIteratorImpl.prototype, "referenceNode", { /** @inheritdoc */ get: function () { return this._reference; }, enumerable: true, configurable: true }); Object.defineProperty(NodeIteratorImpl.prototype, "pointerBeforeReferenceNode", { /** @inheritdoc */ get: function () { return this._pointerBeforeReference; }, enumerable: true, configurable: true }); /** @inheritdoc */ NodeIteratorImpl.prototype.nextNode = function () { /** * The nextNode() method, when invoked, must return the result of * traversing with the context object and next. */ return algorithm_1.nodeIterator_traverse(this, true); }; /** @inheritdoc */ NodeIteratorImpl.prototype.previousNode = function () { /** * The previousNode() method, when invoked, must return the result of * traversing with the context object and previous. */ return algorithm_1.nodeIterator_traverse(this, false); }; /** @inheritdoc */ NodeIteratorImpl.prototype.detach = function () { /** * The detach() method, when invoked, must do nothing. * * since JS lacks weak references, we still use detach */ algorithm_1.nodeIterator_iteratorList().delete(this); }; /** * Creates a new `NodeIterator`. * * @param root - iterator's root node * @param reference - reference node * @param pointerBeforeReference - whether the iterator is before or after the * reference node */ NodeIteratorImpl._create = function (root, reference, pointerBeforeReference) { return new NodeIteratorImpl(root, reference, pointerBeforeReference); }; return NodeIteratorImpl; }(TraverserImpl_1.TraverserImpl)); exports.NodeIteratorImpl = NodeIteratorImpl; //# sourceMappingURL=NodeIteratorImpl.js.map /***/ }), /***/ 43728: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; Object.defineProperty(exports, "__esModule", ({ value: true })); var DOMImpl_1 = __nccwpck_require__(14177); var util_1 = __nccwpck_require__(76195); var algorithm_1 = __nccwpck_require__(61); /** * Represents an ordered set of nodes. */ var NodeListImpl = /** @class */ (function () { /** * Initializes a new instance of `NodeList`. * * @param root - root node */ function NodeListImpl(root) { this._live = true; this._filter = null; this._length = 0; this._root = root; return new Proxy(this, this); } Object.defineProperty(NodeListImpl.prototype, "length", { /** @inheritdoc */ get: function () { /** * The length attribute must return the number of nodes represented * by the collection. */ return this._root._children.size; }, enumerable: true, configurable: true }); /** @inheritdoc */ NodeListImpl.prototype.item = function (index) { /** * The item(index) method must return the indexth node in the collection. * If there is no indexth node in the collection, then the method must * return null. */ if (index < 0 || index > this.length - 1) return null; if (index < this.length / 2) { var i = 0; var node = this._root._firstChild; while (node !== null && i !== index) { node = node._nextSibling; i++; } return node; } else { var i = this.length - 1; var node = this._root._lastChild; while (node !== null && i !== index) { node = node._previousSibling; i--; } return node; } }; /** @inheritdoc */ NodeListImpl.prototype.keys = function () { var _a; return _a = {}, _a[Symbol.iterator] = function () { var index = 0; return { next: function () { if (index === this.length) { return { done: true, value: null }; } else { return { done: false, value: index++ }; } }.bind(this) }; }.bind(this), _a; }; /** @inheritdoc */ NodeListImpl.prototype.values = function () { var _a; return _a = {}, _a[Symbol.iterator] = function () { var it = this[Symbol.iterator](); return { next: function () { return it.next(); } }; }.bind(this), _a; }; /** @inheritdoc */ NodeListImpl.prototype.entries = function () { var _a; return _a = {}, _a[Symbol.iterator] = function () { var it = this[Symbol.iterator](); var index = 0; return { next: function () { var itResult = it.next(); if (itResult.done) { return { done: true, value: null }; } else { return { done: false, value: [index++, itResult.value] }; } } }; }.bind(this), _a; }; /** @inheritdoc */ NodeListImpl.prototype[Symbol.iterator] = function () { return this._root._children[Symbol.iterator](); }; /** @inheritdoc */ NodeListImpl.prototype.forEach = function (callback, thisArg) { var e_1, _a; if (thisArg === undefined) { thisArg = DOMImpl_1.dom.window; } var index = 0; try { for (var _b = __values(this._root._children), _c = _b.next(); !_c.done; _c = _b.next()) { var node = _c.value; callback.call(thisArg, node, index++, this); } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_1) throw e_1.error; } } }; /** * Implements a proxy get trap to provide array-like access. */ NodeListImpl.prototype.get = function (target, key, receiver) { if (!util_1.isString(key)) { return Reflect.get(target, key, receiver); } var index = Number(key); if (isNaN(index)) { return Reflect.get(target, key, receiver); } return target.item(index) || undefined; }; /** * Implements a proxy set trap to provide array-like access. */ NodeListImpl.prototype.set = function (target, key, value, receiver) { if (!util_1.isString(key)) { return Reflect.set(target, key, value, receiver); } var index = Number(key); if (isNaN(index)) { return Reflect.set(target, key, value, receiver); } var node = target.item(index) || undefined; if (!node) return false; if (node._parent) { algorithm_1.mutation_replace(node, value, node._parent); return true; } else { return false; } }; /** * Creates a new `NodeList`. * * @param root - root node */ NodeListImpl._create = function (root) { return new NodeListImpl(root); }; return NodeListImpl; }()); exports.NodeListImpl = NodeListImpl; //# sourceMappingURL=NodeListImpl.js.map /***/ }), /***/ 65306: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; Object.defineProperty(exports, "__esModule", ({ value: true })); var DOMImpl_1 = __nccwpck_require__(14177); var util_1 = __nccwpck_require__(76195); /** * Represents an ordered list of nodes. * This is a static implementation of `NodeList`. */ var NodeListStaticImpl = /** @class */ (function () { /** * Initializes a new instance of `NodeList`. * * @param root - root node */ function NodeListStaticImpl(root) { this._live = false; this._items = []; this._length = 0; this._root = root; this._items = []; this._filter = function (node) { return true; }; return new Proxy(this, this); } Object.defineProperty(NodeListStaticImpl.prototype, "length", { /** @inheritdoc */ get: function () { /** * The length attribute must return the number of nodes represented by * the collection. */ return this._items.length; }, enumerable: true, configurable: true }); /** @inheritdoc */ NodeListStaticImpl.prototype.item = function (index) { /** * The item(index) method must return the indexth node in the collection. * If there is no indexth node in the collection, then the method must * return null. */ if (index < 0 || index > this.length - 1) return null; return this._items[index]; }; /** @inheritdoc */ NodeListStaticImpl.prototype.keys = function () { var _a; return _a = {}, _a[Symbol.iterator] = function () { var index = 0; return { next: function () { if (index === this.length) { return { done: true, value: null }; } else { return { done: false, value: index++ }; } }.bind(this) }; }.bind(this), _a; }; /** @inheritdoc */ NodeListStaticImpl.prototype.values = function () { var _a; return _a = {}, _a[Symbol.iterator] = function () { var it = this[Symbol.iterator](); return { next: function () { return it.next(); } }; }.bind(this), _a; }; /** @inheritdoc */ NodeListStaticImpl.prototype.entries = function () { var _a; return _a = {}, _a[Symbol.iterator] = function () { var it = this[Symbol.iterator](); var index = 0; return { next: function () { var itResult = it.next(); if (itResult.done) { return { done: true, value: null }; } else { return { done: false, value: [index++, itResult.value] }; } } }; }.bind(this), _a; }; /** @inheritdoc */ NodeListStaticImpl.prototype[Symbol.iterator] = function () { var it = this._items[Symbol.iterator](); return { next: function () { return it.next(); } }; }; /** @inheritdoc */ NodeListStaticImpl.prototype.forEach = function (callback, thisArg) { var e_1, _a; if (thisArg === undefined) { thisArg = DOMImpl_1.dom.window; } var index = 0; try { for (var _b = __values(this._items), _c = _b.next(); !_c.done; _c = _b.next()) { var node = _c.value; callback.call(thisArg, node, index++, this); } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_1) throw e_1.error; } } }; /** * Implements a proxy get trap to provide array-like access. */ NodeListStaticImpl.prototype.get = function (target, key, receiver) { if (!util_1.isString(key)) { return Reflect.get(target, key, receiver); } var index = Number(key); if (isNaN(index)) { return Reflect.get(target, key, receiver); } return target._items[index] || undefined; }; /** * Implements a proxy set trap to provide array-like access. */ NodeListStaticImpl.prototype.set = function (target, key, value, receiver) { if (!util_1.isString(key)) { return Reflect.set(target, key, value, receiver); } var index = Number(key); if (isNaN(index)) { return Reflect.set(target, key, value, receiver); } if (index >= 0 && index < target._items.length) { target._items[index] = value; return true; } else { return false; } }; /** * Creates a new `NodeList`. * * @param root - root node * @param items - a list of items to initialize the list */ NodeListStaticImpl._create = function (root, items) { var list = new NodeListStaticImpl(root); list._items = items; return list; }; return NodeListStaticImpl; }()); exports.NodeListStaticImpl = NodeListStaticImpl; //# sourceMappingURL=NodeListStaticImpl.js.map /***/ }), /***/ 71032: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var util_1 = __nccwpck_require__(65282); /** * Represents a mixin that extends child nodes that can have siblings * other than doctypes. This mixin is implemented by {@link Element} and * {@link CharacterData}. */ var NonDocumentTypeChildNodeImpl = /** @class */ (function () { function NonDocumentTypeChildNodeImpl() { } Object.defineProperty(NonDocumentTypeChildNodeImpl.prototype, "previousElementSibling", { /** @inheritdoc */ get: function () { /** * The previousElementSibling attribute’s getter must return the first * preceding sibling that is an element, and null otherwise. */ var node = util_1.Cast.asNode(this)._previousSibling; while (node) { if (util_1.Guard.isElementNode(node)) return node; else node = node._previousSibling; } return null; }, enumerable: true, configurable: true }); Object.defineProperty(NonDocumentTypeChildNodeImpl.prototype, "nextElementSibling", { /** @inheritdoc */ get: function () { /** * The nextElementSibling attribute’s getter must return the first * following sibling that is an element, and null otherwise. */ var node = util_1.Cast.asNode(this)._nextSibling; while (node) { if (util_1.Guard.isElementNode(node)) return node; else node = node._nextSibling; } return null; }, enumerable: true, configurable: true }); return NonDocumentTypeChildNodeImpl; }()); exports.NonDocumentTypeChildNodeImpl = NonDocumentTypeChildNodeImpl; //# sourceMappingURL=NonDocumentTypeChildNodeImpl.js.map /***/ }), /***/ 90733: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var util_1 = __nccwpck_require__(65282); var algorithm_1 = __nccwpck_require__(61); /** * Represents a mixin that extends non-element parent nodes. This mixin * is implemented by {@link Document} and {@link DocumentFragment}. */ var NonElementParentNodeImpl = /** @class */ (function () { function NonElementParentNodeImpl() { } /** @inheritdoc */ NonElementParentNodeImpl.prototype.getElementById = function (id) { /** * The getElementById(elementId) method, when invoked, must return the first * element, in tree order, within the context object’s descendants, * whose ID is elementId, and null if there is no such element otherwise. */ var ele = algorithm_1.tree_getFirstDescendantNode(util_1.Cast.asNode(this), false, false, function (e) { return util_1.Guard.isElementNode(e); }); while (ele !== null) { if (ele._uniqueIdentifier === id) { return ele; } ele = algorithm_1.tree_getNextDescendantNode(util_1.Cast.asNode(this), ele, false, false, function (e) { return util_1.Guard.isElementNode(e); }); } return null; }; return NonElementParentNodeImpl; }()); exports.NonElementParentNodeImpl = NonElementParentNodeImpl; //# sourceMappingURL=NonElementParentNodeImpl.js.map /***/ }), /***/ 85988: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; Object.defineProperty(exports, "__esModule", ({ value: true })); var util_1 = __nccwpck_require__(65282); var algorithm_1 = __nccwpck_require__(61); /** * Represents a mixin that extends parent nodes that can have children. * This mixin is implemented by {@link Element}, {@link Document} and * {@link DocumentFragment}. */ var ParentNodeImpl = /** @class */ (function () { function ParentNodeImpl() { } Object.defineProperty(ParentNodeImpl.prototype, "children", { /** @inheritdoc */ get: function () { /** * The children attribute’s getter must return an HTMLCollection collection * rooted at context object matching only element children. */ return algorithm_1.create_htmlCollection(util_1.Cast.asNode(this)); }, enumerable: true, configurable: true }); Object.defineProperty(ParentNodeImpl.prototype, "firstElementChild", { /** @inheritdoc */ get: function () { /** * The firstElementChild attribute’s getter must return the first child * that is an element, and null otherwise. */ var node = util_1.Cast.asNode(this)._firstChild; while (node) { if (util_1.Guard.isElementNode(node)) return node; else node = node._nextSibling; } return null; }, enumerable: true, configurable: true }); Object.defineProperty(ParentNodeImpl.prototype, "lastElementChild", { /** @inheritdoc */ get: function () { /** * The lastElementChild attribute’s getter must return the last child that * is an element, and null otherwise. */ var node = util_1.Cast.asNode(this)._lastChild; while (node) { if (util_1.Guard.isElementNode(node)) return node; else node = node._previousSibling; } return null; }, enumerable: true, configurable: true }); Object.defineProperty(ParentNodeImpl.prototype, "childElementCount", { /** @inheritdoc */ get: function () { var e_1, _a; /** * The childElementCount attribute’s getter must return the number of * children of context object that are elements. */ var count = 0; try { for (var _b = __values(util_1.Cast.asNode(this)._children), _c = _b.next(); !_c.done; _c = _b.next()) { var childNode = _c.value; if (util_1.Guard.isElementNode(childNode)) count++; } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_1) throw e_1.error; } } return count; }, enumerable: true, configurable: true }); /** @inheritdoc */ ParentNodeImpl.prototype.prepend = function () { var nodes = []; for (var _i = 0; _i < arguments.length; _i++) { nodes[_i] = arguments[_i]; } /** * 1. Let node be the result of converting nodes into a node given nodes * and context object’s node document. * 2. Pre-insert node into context object before the context object’s first * child. */ var node = util_1.Cast.asNode(this); var childNode = algorithm_1.parentNode_convertNodesIntoANode(nodes, node._nodeDocument); algorithm_1.mutation_preInsert(childNode, node, node._firstChild); }; /** @inheritdoc */ ParentNodeImpl.prototype.append = function () { var nodes = []; for (var _i = 0; _i < arguments.length; _i++) { nodes[_i] = arguments[_i]; } /** * 1. Let node be the result of converting nodes into a node given nodes * and context object’s node document. * 2. Append node to context object. */ var node = util_1.Cast.asNode(this); var childNode = algorithm_1.parentNode_convertNodesIntoANode(nodes, node._nodeDocument); algorithm_1.mutation_append(childNode, node); }; /** @inheritdoc */ ParentNodeImpl.prototype.querySelector = function (selectors) { /** * The querySelector(selectors) method, when invoked, must return the first * result of running scope-match a selectors string selectors against * context object, if the result is not an empty list, and null otherwise. */ var node = util_1.Cast.asNode(this); var result = algorithm_1.selectors_scopeMatchASelectorsString(selectors, node); return (result.length === 0 ? null : result[0]); }; /** @inheritdoc */ ParentNodeImpl.prototype.querySelectorAll = function (selectors) { /** * The querySelectorAll(selectors) method, when invoked, must return the * static result of running scope-match a selectors string selectors against * context object. */ var node = util_1.Cast.asNode(this); var result = algorithm_1.selectors_scopeMatchASelectorsString(selectors, node); return algorithm_1.create_nodeListStatic(node, result); }; return ParentNodeImpl; }()); exports.ParentNodeImpl = ParentNodeImpl; //# sourceMappingURL=ParentNodeImpl.js.map /***/ }), /***/ 99430: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __extends = (this && this.__extends) || (function () { var extendStatics = function (d, b) { extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; }; return extendStatics(d, b); }; return function (d, b) { extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; })(); Object.defineProperty(exports, "__esModule", ({ value: true })); var interfaces_1 = __nccwpck_require__(27305); var CharacterDataImpl_1 = __nccwpck_require__(65330); var WebIDLAlgorithm_1 = __nccwpck_require__(45457); /** * Represents a processing instruction node. */ var ProcessingInstructionImpl = /** @class */ (function (_super) { __extends(ProcessingInstructionImpl, _super); /** * Initializes a new instance of `ProcessingInstruction`. */ function ProcessingInstructionImpl(target, data) { var _this = _super.call(this, data) || this; _this._target = target; return _this; } Object.defineProperty(ProcessingInstructionImpl.prototype, "target", { /** * Gets the target of the {@link ProcessingInstruction} node. */ get: function () { return this._target; }, enumerable: true, configurable: true }); /** * Creates a new `ProcessingInstruction`. * * @param document - owner document * @param target - instruction target * @param data - node contents */ ProcessingInstructionImpl._create = function (document, target, data) { var node = new ProcessingInstructionImpl(target, data); node._nodeDocument = document; return node; }; return ProcessingInstructionImpl; }(CharacterDataImpl_1.CharacterDataImpl)); exports.ProcessingInstructionImpl = ProcessingInstructionImpl; /** * Initialize prototype properties */ WebIDLAlgorithm_1.idl_defineConst(ProcessingInstructionImpl.prototype, "_nodeType", interfaces_1.NodeType.ProcessingInstruction); //# sourceMappingURL=ProcessingInstructionImpl.js.map /***/ }), /***/ 50166: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __extends = (this && this.__extends) || (function () { var extendStatics = function (d, b) { extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; }; return extendStatics(d, b); }; return function (d, b) { extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; })(); var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; Object.defineProperty(exports, "__esModule", ({ value: true })); var DOMImpl_1 = __nccwpck_require__(14177); var interfaces_1 = __nccwpck_require__(27305); var AbstractRangeImpl_1 = __nccwpck_require__(57126); var DOMException_1 = __nccwpck_require__(13166); var algorithm_1 = __nccwpck_require__(61); var WebIDLAlgorithm_1 = __nccwpck_require__(45457); var util_1 = __nccwpck_require__(65282); /** * Represents a live range. */ var RangeImpl = /** @class */ (function (_super) { __extends(RangeImpl, _super); /** * Initializes a new instance of `Range`. */ function RangeImpl() { var _this = _super.call(this) || this; /** * The Range() constructor, when invoked, must return a new live range with * (current global object’s associated Document, 0) as its start and end. */ var doc = DOMImpl_1.dom.window._associatedDocument; _this._start = [doc, 0]; _this._end = [doc, 0]; DOMImpl_1.dom.rangeList.add(_this); return _this; } Object.defineProperty(RangeImpl.prototype, "commonAncestorContainer", { /** @inheritdoc */ get: function () { /** * 1. Let container be start node. * 2. While container is not an inclusive ancestor of end node, let * container be container’s parent. * 3. Return container. */ var container = this._start[0]; while (!algorithm_1.tree_isAncestorOf(this._end[0], container, true)) { if (container._parent === null) { throw new Error("Parent node is null."); } container = container._parent; } return container; }, enumerable: true, configurable: true }); /** @inheritdoc */ RangeImpl.prototype.setStart = function (node, offset) { /** * The setStart(node, offset) method, when invoked, must set the start of * context object to boundary point (node, offset). */ algorithm_1.range_setTheStart(this, node, offset); }; /** @inheritdoc */ RangeImpl.prototype.setEnd = function (node, offset) { /** * The setEnd(node, offset) method, when invoked, must set the end of * context object to boundary point (node, offset). */ algorithm_1.range_setTheEnd(this, node, offset); }; /** @inheritdoc */ RangeImpl.prototype.setStartBefore = function (node) { /** * 1. Let parent be node’s parent. * 2. If parent is null, then throw an "InvalidNodeTypeError" DOMException. * 3. Set the start of the context object to boundary point * (parent, node’s index). */ var parent = node._parent; if (parent === null) throw new DOMException_1.InvalidNodeTypeError(); algorithm_1.range_setTheStart(this, parent, algorithm_1.tree_index(node)); }; /** @inheritdoc */ RangeImpl.prototype.setStartAfter = function (node) { /** * 1. Let parent be node’s parent. * 2. If parent is null, then throw an "InvalidNodeTypeError" DOMException. * 3. Set the start of the context object to boundary point * (parent, node’s index plus 1). */ var parent = node._parent; if (parent === null) throw new DOMException_1.InvalidNodeTypeError(); algorithm_1.range_setTheStart(this, parent, algorithm_1.tree_index(node) + 1); }; /** @inheritdoc */ RangeImpl.prototype.setEndBefore = function (node) { /** * 1. Let parent be node’s parent. * 2. If parent is null, then throw an "InvalidNodeTypeError" DOMException. * 3. Set the end of the context object to boundary point * (parent, node’s index). */ var parent = node._parent; if (parent === null) throw new DOMException_1.InvalidNodeTypeError(); algorithm_1.range_setTheEnd(this, parent, algorithm_1.tree_index(node)); }; /** @inheritdoc */ RangeImpl.prototype.setEndAfter = function (node) { /** * 1. Let parent be node’s parent. * 2. If parent is null, then throw an "InvalidNodeTypeError" DOMException. * 3. Set the end of the context object to boundary point * (parent, node’s index plus 1). */ var parent = node._parent; if (parent === null) throw new DOMException_1.InvalidNodeTypeError(); algorithm_1.range_setTheEnd(this, parent, algorithm_1.tree_index(node) + 1); }; /** @inheritdoc */ RangeImpl.prototype.collapse = function (toStart) { /** * The collapse(toStart) method, when invoked, must if toStart is true, * set end to start, and set start to end otherwise. */ if (toStart) { this._end = this._start; } else { this._start = this._end; } }; /** @inheritdoc */ RangeImpl.prototype.selectNode = function (node) { /** * The selectNode(node) method, when invoked, must select node within * context object. */ algorithm_1.range_select(node, this); }; /** @inheritdoc */ RangeImpl.prototype.selectNodeContents = function (node) { /** * 1. If node is a doctype, throw an "InvalidNodeTypeError" DOMException. * 2. Let length be the length of node. * 3. Set start to the boundary point (node, 0). * 4. Set end to the boundary point (node, length). */ if (util_1.Guard.isDocumentTypeNode(node)) throw new DOMException_1.InvalidNodeTypeError(); var length = algorithm_1.tree_nodeLength(node); this._start = [node, 0]; this._end = [node, length]; }; /** @inheritdoc */ RangeImpl.prototype.compareBoundaryPoints = function (how, sourceRange) { /** * 1. If how is not one of * - START_TO_START, * - START_TO_END, * - END_TO_END, and * - END_TO_START, * then throw a "NotSupportedError" DOMException. */ if (how !== interfaces_1.HowToCompare.StartToStart && how !== interfaces_1.HowToCompare.StartToEnd && how !== interfaces_1.HowToCompare.EndToEnd && how !== interfaces_1.HowToCompare.EndToStart) throw new DOMException_1.NotSupportedError(); /** * 2. If context object’s root is not the same as sourceRange’s root, * then throw a "WrongDocumentError" DOMException. */ if (algorithm_1.range_root(this) !== algorithm_1.range_root(sourceRange)) throw new DOMException_1.WrongDocumentError(); /** * 3. If how is: * - START_TO_START: * Let this point be the context object’s start. Let other point be * sourceRange’s start. * - START_TO_END: * Let this point be the context object’s end. Let other point be * sourceRange’s start. * - END_TO_END: * Let this point be the context object’s end. Let other point be * sourceRange’s end. * - END_TO_START: * Let this point be the context object’s start. Let other point be * sourceRange’s end. */ var thisPoint; var otherPoint; switch (how) { case interfaces_1.HowToCompare.StartToStart: thisPoint = this._start; otherPoint = sourceRange._start; break; case interfaces_1.HowToCompare.StartToEnd: thisPoint = this._end; otherPoint = sourceRange._start; break; case interfaces_1.HowToCompare.EndToEnd: thisPoint = this._end; otherPoint = sourceRange._end; break; case interfaces_1.HowToCompare.EndToStart: thisPoint = this._start; otherPoint = sourceRange._end; break; /* istanbul ignore next */ default: throw new DOMException_1.NotSupportedError(); } /** * 4. If the position of this point relative to other point is * - before * Return −1. * - equal * Return 0. * - after * Return 1. */ var position = algorithm_1.boundaryPoint_position(thisPoint, otherPoint); if (position === interfaces_1.BoundaryPosition.Before) { return -1; } else if (position === interfaces_1.BoundaryPosition.After) { return 1; } else { return 0; } }; /** @inheritdoc */ RangeImpl.prototype.deleteContents = function () { var e_1, _a, e_2, _b; /** * 1. If the context object is collapsed, then return. * 2. Let original start node, original start offset, original end node, * and original end offset be the context object’s start node, * start offset, end node, and end offset, respectively. */ if (algorithm_1.range_collapsed(this)) return; var originalStartNode = this._startNode; var originalStartOffset = this._startOffset; var originalEndNode = this._endNode; var originalEndOffset = this._endOffset; /** * 3. If original start node and original end node are the same, and they * are a Text, ProcessingInstruction, or Comment node, replace data with * node original start node, offset original start offset, count original * end offset minus original start offset, and data the empty string, * and then return. */ if (originalStartNode === originalEndNode && util_1.Guard.isCharacterDataNode(originalStartNode)) { algorithm_1.characterData_replaceData(originalStartNode, originalStartOffset, originalEndOffset - originalStartOffset, ''); return; } /** * 4. Let nodes to remove be a list of all the nodes that are contained in * the context object, in tree order, omitting any node whose parent is also * contained in the context object. */ var nodesToRemove = []; try { for (var _c = __values(algorithm_1.range_getContainedNodes(this)), _d = _c.next(); !_d.done; _d = _c.next()) { var node = _d.value; var parent = node._parent; if (parent !== null && algorithm_1.range_isContained(parent, this)) { continue; } nodesToRemove.push(node); } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_d && !_d.done && (_a = _c.return)) _a.call(_c); } finally { if (e_1) throw e_1.error; } } var newNode; var newOffset; if (algorithm_1.tree_isAncestorOf(originalEndNode, originalStartNode, true)) { /** * 5. If original start node is an inclusive ancestor of original end * node, set new node to original start node and new offset to original * start offset. */ newNode = originalStartNode; newOffset = originalStartOffset; } else { /** * 6. Otherwise: * 6.1. Let reference node equal original start node. * 6.2. While reference node’s parent is not null and is not an inclusive * ancestor of original end node, set reference node to its parent. * 6.3. Set new node to the parent of reference node, and new offset to * one plus the index of reference node. */ var referenceNode = originalStartNode; while (referenceNode._parent !== null && !algorithm_1.tree_isAncestorOf(originalEndNode, referenceNode._parent, true)) { referenceNode = referenceNode._parent; } /* istanbul ignore next */ if (referenceNode._parent === null) { throw new Error("Parent node is null."); } newNode = referenceNode._parent; newOffset = algorithm_1.tree_index(referenceNode) + 1; } /** * 7. If original start node is a Text, ProcessingInstruction, or Comment * node, replace data with node original start node, offset original start * offset, count original start node’s length minus original start offset, * data the empty string. */ if (util_1.Guard.isCharacterDataNode(originalStartNode)) { algorithm_1.characterData_replaceData(originalStartNode, originalStartOffset, algorithm_1.tree_nodeLength(originalStartNode) - originalStartOffset, ''); } try { /** * 8. For each node in nodes to remove, in tree order, remove node from its * parent. */ for (var nodesToRemove_1 = __values(nodesToRemove), nodesToRemove_1_1 = nodesToRemove_1.next(); !nodesToRemove_1_1.done; nodesToRemove_1_1 = nodesToRemove_1.next()) { var node = nodesToRemove_1_1.value; /* istanbul ignore else */ if (node._parent) { algorithm_1.mutation_remove(node, node._parent); } } } catch (e_2_1) { e_2 = { error: e_2_1 }; } finally { try { if (nodesToRemove_1_1 && !nodesToRemove_1_1.done && (_b = nodesToRemove_1.return)) _b.call(nodesToRemove_1); } finally { if (e_2) throw e_2.error; } } /** * 9. If original end node is a Text, ProcessingInstruction, or Comment * node, replace data with node original end node, offset 0, count original * end offset and data the empty string. */ if (util_1.Guard.isCharacterDataNode(originalEndNode)) { algorithm_1.characterData_replaceData(originalEndNode, 0, originalEndOffset, ''); } /** * 10. Set start and end to (new node, new offset). */ this._start = [newNode, newOffset]; this._end = [newNode, newOffset]; }; /** @inheritdoc */ RangeImpl.prototype.extractContents = function () { /** * The extractContents() method, when invoked, must return the result of * extracting the context object. */ return algorithm_1.range_extract(this); }; /** @inheritdoc */ RangeImpl.prototype.cloneContents = function () { /** * The cloneContents() method, when invoked, must return the result of * cloning the contents of the context object. */ return algorithm_1.range_cloneTheContents(this); }; /** @inheritdoc */ RangeImpl.prototype.insertNode = function (node) { /** * The insertNode(node) method, when invoked, must insert node into the * context object. */ return algorithm_1.range_insert(node, this); }; /** @inheritdoc */ RangeImpl.prototype.surroundContents = function (newParent) { var e_3, _a; try { /** * 1. If a non-Text node is partially contained in the context object, then * throw an "InvalidStateError" DOMException. */ for (var _b = __values(algorithm_1.range_getPartiallyContainedNodes(this)), _c = _b.next(); !_c.done; _c = _b.next()) { var node = _c.value; if (!util_1.Guard.isTextNode(node)) { throw new DOMException_1.InvalidStateError(); } } } catch (e_3_1) { e_3 = { error: e_3_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_3) throw e_3.error; } } /** * 2. If newParent is a Document, DocumentType, or DocumentFragment node, * then throw an "InvalidNodeTypeError" DOMException. */ if (util_1.Guard.isDocumentNode(newParent) || util_1.Guard.isDocumentTypeNode(newParent) || util_1.Guard.isDocumentFragmentNode(newParent)) { throw new DOMException_1.InvalidNodeTypeError(); } /** * 3. Let fragment be the result of extracting the context object. */ var fragment = algorithm_1.range_extract(this); /** * 4. If newParent has children, then replace all with null within newParent. */ if ((newParent)._children.size !== 0) { algorithm_1.mutation_replaceAll(null, newParent); } /** * 5. Insert newParent into the context object. * 6. Append fragment to newParent. */ algorithm_1.range_insert(newParent, this); algorithm_1.mutation_append(fragment, newParent); /** * 7. Select newParent within the context object. */ algorithm_1.range_select(newParent, this); }; /** @inheritdoc */ RangeImpl.prototype.cloneRange = function () { /** * The cloneRange() method, when invoked, must return a new live range with * the same start and end as the context object. */ return algorithm_1.create_range(this._start, this._end); }; /** @inheritdoc */ RangeImpl.prototype.detach = function () { /** * The detach() method, when invoked, must do nothing. * * since JS lacks weak references, we still use detach */ DOMImpl_1.dom.rangeList.delete(this); }; /** @inheritdoc */ RangeImpl.prototype.isPointInRange = function (node, offset) { /** * 1. If node’s root is different from the context object’s root, return false. */ if (algorithm_1.tree_rootNode(node) !== algorithm_1.range_root(this)) { return false; } /** * 2. If node is a doctype, then throw an "InvalidNodeTypeError" DOMException. * 3. If offset is greater than node’s length, then throw an * "IndexSizeError" DOMException. */ if (util_1.Guard.isDocumentTypeNode(node)) throw new DOMException_1.InvalidNodeTypeError(); if (offset > algorithm_1.tree_nodeLength(node)) throw new DOMException_1.IndexSizeError(); /** * 4. If (node, offset) is before start or after end, return false. */ var bp = [node, offset]; if (algorithm_1.boundaryPoint_position(bp, this._start) === interfaces_1.BoundaryPosition.Before || algorithm_1.boundaryPoint_position(bp, this._end) === interfaces_1.BoundaryPosition.After) { return false; } /** * 5. Return true. */ return true; }; /** @inheritdoc */ RangeImpl.prototype.comparePoint = function (node, offset) { /** * 1. If node’s root is different from the context object’s root, then throw * a "WrongDocumentError" DOMException. * 2. If node is a doctype, then throw an "InvalidNodeTypeError" DOMException. * 3. If offset is greater than node’s length, then throw an * "IndexSizeError" DOMException. */ if (algorithm_1.tree_rootNode(node) !== algorithm_1.range_root(this)) throw new DOMException_1.WrongDocumentError(); if (util_1.Guard.isDocumentTypeNode(node)) throw new DOMException_1.InvalidNodeTypeError(); if (offset > algorithm_1.tree_nodeLength(node)) throw new DOMException_1.IndexSizeError(); /** * 4. If (node, offset) is before start, return −1. * 5. If (node, offset) is after end, return 1. * 6. Return 0. */ var bp = [node, offset]; if (algorithm_1.boundaryPoint_position(bp, this._start) === interfaces_1.BoundaryPosition.Before) { return -1; } else if (algorithm_1.boundaryPoint_position(bp, this._end) === interfaces_1.BoundaryPosition.After) { return 1; } else { return 0; } }; /** @inheritdoc */ RangeImpl.prototype.intersectsNode = function (node) { /** * 1. If node’s root is different from the context object’s root, return false. */ if (algorithm_1.tree_rootNode(node) !== algorithm_1.range_root(this)) { return false; } /** * 2. Let parent be node’s parent. * 3. If parent is null, return true. */ var parent = node._parent; if (parent === null) return true; /** * 4. Let offset be node’s index. */ var offset = algorithm_1.tree_index(node); /** * 5. If (parent, offset) is before end and (parent, offset plus 1) is * after start, return true. */ if (algorithm_1.boundaryPoint_position([parent, offset], this._end) === interfaces_1.BoundaryPosition.Before && algorithm_1.boundaryPoint_position([parent, offset + 1], this._start) === interfaces_1.BoundaryPosition.After) { return true; } /** * 6. Return false. */ return false; }; RangeImpl.prototype.toString = function () { var e_4, _a; /** * 1. Let s be the empty string. */ var s = ''; /** * 2. If the context object’s start node is the context object’s end node * and it is a Text node, then return the substring of that Text node’s data * beginning at the context object’s start offset and ending at the context * object’s end offset. */ if (this._startNode === this._endNode && util_1.Guard.isTextNode(this._startNode)) { return this._startNode._data.substring(this._startOffset, this._endOffset); } /** * 3. If the context object’s start node is a Text node, then append the * substring of that node’s data from the context object’s start offset * until the end to s. */ if (util_1.Guard.isTextNode(this._startNode)) { s += this._startNode._data.substring(this._startOffset); } try { /** * 4. Append the concatenation of the data of all Text nodes that are * contained in the context object, in tree order, to s. */ for (var _b = __values(algorithm_1.range_getContainedNodes(this)), _c = _b.next(); !_c.done; _c = _b.next()) { var child = _c.value; if (util_1.Guard.isTextNode(child)) { s += child._data; } } } catch (e_4_1) { e_4 = { error: e_4_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_4) throw e_4.error; } } /** * 5. If the context object’s end node is a Text node, then append the * substring of that node’s data from its start until the context object’s * end offset to s. */ if (util_1.Guard.isTextNode(this._endNode)) { s += this._endNode._data.substring(0, this._endOffset); } /** * 6. Return s. */ return s; }; /** * Creates a new `Range`. * * @param start - start point * @param end - end point */ RangeImpl._create = function (start, end) { var range = new RangeImpl(); if (start) range._start = start; if (end) range._end = end; return range; }; RangeImpl.START_TO_START = 0; RangeImpl.START_TO_END = 1; RangeImpl.END_TO_END = 2; RangeImpl.END_TO_START = 3; return RangeImpl; }(AbstractRangeImpl_1.AbstractRangeImpl)); exports.RangeImpl = RangeImpl; /** * Define constants on prototype. */ WebIDLAlgorithm_1.idl_defineConst(RangeImpl.prototype, "START_TO_START", 0); WebIDLAlgorithm_1.idl_defineConst(RangeImpl.prototype, "START_TO_END", 1); WebIDLAlgorithm_1.idl_defineConst(RangeImpl.prototype, "END_TO_END", 2); WebIDLAlgorithm_1.idl_defineConst(RangeImpl.prototype, "END_TO_START", 3); //# sourceMappingURL=RangeImpl.js.map /***/ }), /***/ 61911: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __extends = (this && this.__extends) || (function () { var extendStatics = function (d, b) { extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; }; return extendStatics(d, b); }; return function (d, b) { extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; })(); Object.defineProperty(exports, "__esModule", ({ value: true })); var DocumentFragmentImpl_1 = __nccwpck_require__(12585); var util_1 = __nccwpck_require__(76195); var algorithm_1 = __nccwpck_require__(61); /** * Represents a shadow root. */ var ShadowRootImpl = /** @class */ (function (_super) { __extends(ShadowRootImpl, _super); /** * Initializes a new instance of `ShadowRoot`. * * @param host - shadow root's host element * @param mode - shadow root's mode */ function ShadowRootImpl(host, mode) { var _this = _super.call(this) || this; _this._host = host; _this._mode = mode; return _this; } Object.defineProperty(ShadowRootImpl.prototype, "mode", { /** @inheritdoc */ get: function () { return this._mode; }, enumerable: true, configurable: true }); Object.defineProperty(ShadowRootImpl.prototype, "host", { /** @inheritdoc */ get: function () { return this._host; }, enumerable: true, configurable: true }); /** * Gets the parent event target for the given event. * * @param event - an event */ ShadowRootImpl.prototype._getTheParent = function (event) { /** * A shadow root’s get the parent algorithm, given an event, returns null * if event’s composed flag is unset and shadow root is the root of * event’s path’s first struct’s invocation target, and shadow root’s host * otherwise. */ if (!event._composedFlag && !util_1.isEmpty(event._path) && algorithm_1.tree_rootNode(event._path[0].invocationTarget) === this) { return null; } else { return this._host; } }; // MIXIN: DocumentOrShadowRoot // No elements /** * Creates a new `ShadowRoot`. * * @param document - owner document * @param host - shadow root's host element */ ShadowRootImpl._create = function (document, host) { return new ShadowRootImpl(host, "closed"); }; return ShadowRootImpl; }(DocumentFragmentImpl_1.DocumentFragmentImpl)); exports.ShadowRootImpl = ShadowRootImpl; //# sourceMappingURL=ShadowRootImpl.js.map /***/ }), /***/ 21964: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var algorithm_1 = __nccwpck_require__(61); /** * Represents a mixin that allows nodes to become the contents of * a element. This mixin is implemented by {@link Element} and * {@link Text}. */ var SlotableImpl = /** @class */ (function () { function SlotableImpl() { } Object.defineProperty(SlotableImpl.prototype, "_name", { get: function () { return this.__name || ''; }, set: function (val) { this.__name = val; }, enumerable: true, configurable: true }); Object.defineProperty(SlotableImpl.prototype, "_assignedSlot", { get: function () { return this.__assignedSlot || null; }, set: function (val) { this.__assignedSlot = val; }, enumerable: true, configurable: true }); Object.defineProperty(SlotableImpl.prototype, "assignedSlot", { /** @inheritdoc */ get: function () { return algorithm_1.shadowTree_findASlot(this, true); }, enumerable: true, configurable: true }); return SlotableImpl; }()); exports.SlotableImpl = SlotableImpl; //# sourceMappingURL=SlotableImpl.js.map /***/ }), /***/ 86357: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __extends = (this && this.__extends) || (function () { var extendStatics = function (d, b) { extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; }; return extendStatics(d, b); }; return function (d, b) { extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; })(); Object.defineProperty(exports, "__esModule", ({ value: true })); var AbstractRangeImpl_1 = __nccwpck_require__(57126); var DOMException_1 = __nccwpck_require__(13166); var util_1 = __nccwpck_require__(65282); /** * Represents a static range. */ var StaticRangeImpl = /** @class */ (function (_super) { __extends(StaticRangeImpl, _super); /** * Initializes a new instance of `StaticRange`. */ function StaticRangeImpl(init) { var _this = _super.call(this) || this; /** * 1. If init’s startContainer or endContainer is a DocumentType or Attr * node, then throw an "InvalidNodeTypeError" DOMException. * 2. Let staticRange be a new StaticRange object. * 3. Set staticRange’s start to (init’s startContainer, init’s startOffset) * and end to (init’s endContainer, init’s endOffset). * 4. Return staticRange. */ if (util_1.Guard.isDocumentTypeNode(init.startContainer) || util_1.Guard.isAttrNode(init.startContainer) || util_1.Guard.isDocumentTypeNode(init.endContainer) || util_1.Guard.isAttrNode(init.endContainer)) { throw new DOMException_1.InvalidNodeTypeError(); } _this._start = [init.startContainer, init.startOffset]; _this._end = [init.endContainer, init.endOffset]; return _this; } return StaticRangeImpl; }(AbstractRangeImpl_1.AbstractRangeImpl)); exports.StaticRangeImpl = StaticRangeImpl; //# sourceMappingURL=StaticRangeImpl.js.map /***/ }), /***/ 42191: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __extends = (this && this.__extends) || (function () { var extendStatics = function (d, b) { extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; }; return extendStatics(d, b); }; return function (d, b) { extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; })(); var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; Object.defineProperty(exports, "__esModule", ({ value: true })); var interfaces_1 = __nccwpck_require__(27305); var CharacterDataImpl_1 = __nccwpck_require__(65330); var algorithm_1 = __nccwpck_require__(61); var WebIDLAlgorithm_1 = __nccwpck_require__(45457); /** * Represents a text node. */ var TextImpl = /** @class */ (function (_super) { __extends(TextImpl, _super); /** * Initializes a new instance of `Text`. * * @param data - the text content */ function TextImpl(data) { if (data === void 0) { data = ''; } var _this = _super.call(this, data) || this; _this._name = ''; _this._assignedSlot = null; return _this; } Object.defineProperty(TextImpl.prototype, "wholeText", { /** @inheritdoc */ get: function () { var e_1, _a; /** * The wholeText attribute’s getter must return the concatenation of the * data of the contiguous Text nodes of the context object, in tree order. */ var text = ''; try { for (var _b = __values(algorithm_1.text_contiguousTextNodes(this, true)), _c = _b.next(); !_c.done; _c = _b.next()) { var node = _c.value; text = text + node._data; } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_1) throw e_1.error; } } return text; }, enumerable: true, configurable: true }); /** @inheritdoc */ TextImpl.prototype.splitText = function (offset) { /** * The splitText(offset) method, when invoked, must split context object * with offset offset. */ return algorithm_1.text_split(this, offset); }; Object.defineProperty(TextImpl.prototype, "assignedSlot", { // MIXIN: Slotable /* istanbul ignore next */ get: function () { throw new Error("Mixin: Slotable not implemented."); }, enumerable: true, configurable: true }); /** * Creates a `Text`. * * @param document - owner document * @param data - the text content */ TextImpl._create = function (document, data) { if (data === void 0) { data = ''; } var node = new TextImpl(data); node._nodeDocument = document; return node; }; return TextImpl; }(CharacterDataImpl_1.CharacterDataImpl)); exports.TextImpl = TextImpl; /** * Initialize prototype properties */ WebIDLAlgorithm_1.idl_defineConst(TextImpl.prototype, "_nodeType", interfaces_1.NodeType.Text); //# sourceMappingURL=TextImpl.js.map /***/ }), /***/ 39782: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var interfaces_1 = __nccwpck_require__(27305); /** * Represents an object which can be used to iterate through the nodes * of a subtree. */ var TraverserImpl = /** @class */ (function () { /** * Initializes a new instance of `Traverser`. * * @param root - root node */ function TraverserImpl(root) { this._activeFlag = false; this._root = root; this._whatToShow = interfaces_1.WhatToShow.All; this._filter = null; } Object.defineProperty(TraverserImpl.prototype, "root", { /** @inheritdoc */ get: function () { return this._root; }, enumerable: true, configurable: true }); Object.defineProperty(TraverserImpl.prototype, "whatToShow", { /** @inheritdoc */ get: function () { return this._whatToShow; }, enumerable: true, configurable: true }); Object.defineProperty(TraverserImpl.prototype, "filter", { /** @inheritdoc */ get: function () { return this._filter; }, enumerable: true, configurable: true }); return TraverserImpl; }()); exports.TraverserImpl = TraverserImpl; //# sourceMappingURL=TraverserImpl.js.map /***/ }), /***/ 89261: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __extends = (this && this.__extends) || (function () { var extendStatics = function (d, b) { extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; }; return extendStatics(d, b); }; return function (d, b) { extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; })(); Object.defineProperty(exports, "__esModule", ({ value: true })); var interfaces_1 = __nccwpck_require__(27305); var TraverserImpl_1 = __nccwpck_require__(39782); var algorithm_1 = __nccwpck_require__(61); /** * Represents the nodes of a subtree and a position within them. */ var TreeWalkerImpl = /** @class */ (function (_super) { __extends(TreeWalkerImpl, _super); /** * Initializes a new instance of `TreeWalker`. */ function TreeWalkerImpl(root, current) { var _this = _super.call(this, root) || this; _this._current = current; return _this; } Object.defineProperty(TreeWalkerImpl.prototype, "currentNode", { /** @inheritdoc */ get: function () { return this._current; }, set: function (value) { this._current = value; }, enumerable: true, configurable: true }); /** @inheritdoc */ TreeWalkerImpl.prototype.parentNode = function () { /** * 1. Let node be the context object’s current. * 2. While node is non-null and is not the context object’s root: */ var node = this._current; while (node !== null && node !== this._root) { /** * 2.1. Set node to node’s parent. * 2.2. If node is non-null and filtering node within the context object * returns FILTER_ACCEPT, then set the context object’s current to node * and return node. */ node = node._parent; if (node !== null && algorithm_1.traversal_filter(this, node) === interfaces_1.FilterResult.Accept) { this._current = node; return node; } } /** * 3. Return null. */ return null; }; /** @inheritdoc */ TreeWalkerImpl.prototype.firstChild = function () { /** * The firstChild() method, when invoked, must traverse children with the * context object and first. */ return algorithm_1.treeWalker_traverseChildren(this, true); }; /** @inheritdoc */ TreeWalkerImpl.prototype.lastChild = function () { /** * The lastChild() method, when invoked, must traverse children with the * context object and last. */ return algorithm_1.treeWalker_traverseChildren(this, false); }; /** @inheritdoc */ TreeWalkerImpl.prototype.nextSibling = function () { /** * The nextSibling() method, when invoked, must traverse siblings with the * context object and next. */ return algorithm_1.treeWalker_traverseSiblings(this, true); }; /** @inheritdoc */ TreeWalkerImpl.prototype.previousNode = function () { /** * 1. Let node be the context object’s current. * 2. While node is not the context object’s root: */ var node = this._current; while (node !== this._root) { /** * 2.1. Let sibling be node’s previous sibling. * 2.2. While sibling is non-null: */ var sibling = node._previousSibling; while (sibling) { /** * 2.2.1. Set node to sibling. * 2.2.2. Let result be the result of filtering node within the context * object. */ node = sibling; var result = algorithm_1.traversal_filter(this, node); /** * 2.2.3. While result is not FILTER_REJECT and node has a child: */ while (result !== interfaces_1.FilterResult.Reject && node._lastChild) { /** * 2.2.3.1. Set node to node’s last child. * 2.2.3.2. Set result to the result of filtering node within the * context object. */ node = node._lastChild; result = algorithm_1.traversal_filter(this, node); } /** * 2.2.4. If result is FILTER_ACCEPT, then set the context object’s * current to node and return node. */ if (result === interfaces_1.FilterResult.Accept) { this._current = node; return node; } /** * 2.2.5. Set sibling to node’s previous sibling. */ sibling = node._previousSibling; } /** * 2.3. If node is the context object’s root or node’s parent is null, * then return null. */ if (node === this._root || node._parent === null) { return null; } /** * 2.4. Set node to node’s parent. */ node = node._parent; /** * 2.5. If the return value of filtering node within the context object is * FILTER_ACCEPT, then set the context object’s current to node and * return node. */ if (algorithm_1.traversal_filter(this, node) === interfaces_1.FilterResult.Accept) { this._current = node; return node; } } /** * 3. Return null. */ return null; }; /** @inheritdoc */ TreeWalkerImpl.prototype.previousSibling = function () { /** * The previousSibling() method, when invoked, must traverse siblings with * the context object and previous. */ return algorithm_1.treeWalker_traverseSiblings(this, false); }; /** @inheritdoc */ TreeWalkerImpl.prototype.nextNode = function () { /** * 1. Let node be the context object’s current. * 2. Let result be FILTER_ACCEPT. * 3. While true: */ var node = this._current; var result = interfaces_1.FilterResult.Accept; while (true) { /** * 3.1. While result is not FILTER_REJECT and node has a child: */ while (result !== interfaces_1.FilterResult.Reject && node._firstChild) { /** * 3.1.1. Set node to its first child. * 3.1.2. Set result to the result of filtering node within the context * object. * 3.1.3. If result is FILTER_ACCEPT, then set the context object’s * current to node and return node. */ node = node._firstChild; result = algorithm_1.traversal_filter(this, node); if (result === interfaces_1.FilterResult.Accept) { this._current = node; return node; } } /** * 3.2. Let sibling be null. * 3.3. Let temporary be node. * 3.4. While temporary is non-null: */ var sibling = null; var temporary = node; while (temporary !== null) { /** * 3.4.1. If temporary is the context object’s root, then return null. */ if (temporary === this._root) { return null; } /** * 3.4.2. Set sibling to temporary’s next sibling. * 3.4.3. If sibling is non-null, then break. */ sibling = temporary._nextSibling; if (sibling !== null) { node = sibling; break; } /** * 3.4.4. Set temporary to temporary’s parent. */ temporary = temporary._parent; } /** * 3.5. Set result to the result of filtering node within the context object. * 3.6. If result is FILTER_ACCEPT, then set the context object’s current * to node and return node. */ result = algorithm_1.traversal_filter(this, node); if (result === interfaces_1.FilterResult.Accept) { this._current = node; return node; } } }; /** * Creates a new `TreeWalker`. * * @param root - iterator's root node * @param current - current node */ TreeWalkerImpl._create = function (root, current) { return new TreeWalkerImpl(root, current); }; return TreeWalkerImpl; }(TraverserImpl_1.TraverserImpl)); exports.TreeWalkerImpl = TreeWalkerImpl; //# sourceMappingURL=TreeWalkerImpl.js.map /***/ }), /***/ 69067: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __extends = (this && this.__extends) || (function () { var extendStatics = function (d, b) { extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; }; return extendStatics(d, b); }; return function (d, b) { extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; })(); Object.defineProperty(exports, "__esModule", ({ value: true })); var EventTargetImpl_1 = __nccwpck_require__(69968); var util_1 = __nccwpck_require__(76195); var algorithm_1 = __nccwpck_require__(61); /** * Represents a window containing a DOM document. */ var WindowImpl = /** @class */ (function (_super) { __extends(WindowImpl, _super); /** * Initializes a new instance of `Window`. */ function WindowImpl() { var _this = _super.call(this) || this; _this._signalSlots = new Set(); _this._mutationObserverMicrotaskQueued = false; _this._mutationObservers = new Set(); _this._iteratorList = new util_1.FixedSizeSet(); _this._associatedDocument = algorithm_1.create_document(); return _this; } Object.defineProperty(WindowImpl.prototype, "document", { /** @inheritdoc */ get: function () { return this._associatedDocument; }, enumerable: true, configurable: true }); Object.defineProperty(WindowImpl.prototype, "event", { /** @inheritdoc */ get: function () { return this._currentEvent; }, enumerable: true, configurable: true }); /** * Creates a new window with a blank document. */ WindowImpl._create = function () { return new WindowImpl(); }; return WindowImpl; }(EventTargetImpl_1.EventTargetImpl)); exports.WindowImpl = WindowImpl; //# sourceMappingURL=WindowImpl.js.map /***/ }), /***/ 21685: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __extends = (this && this.__extends) || (function () { var extendStatics = function (d, b) { extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; }; return extendStatics(d, b); }; return function (d, b) { extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; })(); Object.defineProperty(exports, "__esModule", ({ value: true })); var DocumentImpl_1 = __nccwpck_require__(14333); /** * Represents an XML document. */ var XMLDocumentImpl = /** @class */ (function (_super) { __extends(XMLDocumentImpl, _super); /** * Initializes a new instance of `XMLDocument`. */ function XMLDocumentImpl() { return _super.call(this) || this; } return XMLDocumentImpl; }(DocumentImpl_1.DocumentImpl)); exports.XMLDocumentImpl = XMLDocumentImpl; //# sourceMappingURL=XMLDocumentImpl.js.map /***/ }), /***/ 50633: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var util_1 = __nccwpck_require__(76195); // Import implementation classes var AbortControllerImpl_1 = __nccwpck_require__(66461); exports.AbortController = AbortControllerImpl_1.AbortControllerImpl; var AbortSignalImpl_1 = __nccwpck_require__(10022); exports.AbortSignal = AbortSignalImpl_1.AbortSignalImpl; var AbstractRangeImpl_1 = __nccwpck_require__(57126); exports.AbstractRange = AbstractRangeImpl_1.AbstractRangeImpl; var AttrImpl_1 = __nccwpck_require__(13717); exports.Attr = AttrImpl_1.AttrImpl; var CDATASectionImpl_1 = __nccwpck_require__(23977); exports.CDATASection = CDATASectionImpl_1.CDATASectionImpl; var CharacterDataImpl_1 = __nccwpck_require__(65330); exports.CharacterData = CharacterDataImpl_1.CharacterDataImpl; var ChildNodeImpl_1 = __nccwpck_require__(88264); var CommentImpl_1 = __nccwpck_require__(20930); exports.Comment = CommentImpl_1.CommentImpl; var CustomEventImpl_1 = __nccwpck_require__(59857); exports.CustomEvent = CustomEventImpl_1.CustomEventImpl; var DocumentFragmentImpl_1 = __nccwpck_require__(12585); exports.DocumentFragment = DocumentFragmentImpl_1.DocumentFragmentImpl; var DocumentImpl_1 = __nccwpck_require__(14333); exports.Document = DocumentImpl_1.DocumentImpl; var DocumentOrShadowRootImpl_1 = __nccwpck_require__(65274); var DocumentTypeImpl_1 = __nccwpck_require__(3173); exports.DocumentType = DocumentTypeImpl_1.DocumentTypeImpl; var DOMImpl_1 = __nccwpck_require__(14177); exports.dom = DOMImpl_1.dom; var DOMImplementationImpl_1 = __nccwpck_require__(42197); exports.DOMImplementation = DOMImplementationImpl_1.DOMImplementationImpl; var DOMTokenListImpl_1 = __nccwpck_require__(65096); exports.DOMTokenList = DOMTokenListImpl_1.DOMTokenListImpl; var ElementImpl_1 = __nccwpck_require__(35975); exports.Element = ElementImpl_1.ElementImpl; var EventImpl_1 = __nccwpck_require__(38245); exports.Event = EventImpl_1.EventImpl; var EventTargetImpl_1 = __nccwpck_require__(69968); exports.EventTarget = EventTargetImpl_1.EventTargetImpl; var HTMLCollectionImpl_1 = __nccwpck_require__(93969); exports.HTMLCollection = HTMLCollectionImpl_1.HTMLCollectionImpl; var MutationObserverImpl_1 = __nccwpck_require__(89616); exports.MutationObserver = MutationObserverImpl_1.MutationObserverImpl; var MutationRecordImpl_1 = __nccwpck_require__(6219); exports.MutationRecord = MutationRecordImpl_1.MutationRecordImpl; var NamedNodeMapImpl_1 = __nccwpck_require__(57206); exports.NamedNodeMap = NamedNodeMapImpl_1.NamedNodeMapImpl; var NodeFilterImpl_1 = __nccwpck_require__(12355); exports.NodeFilter = NodeFilterImpl_1.NodeFilterImpl; var NodeImpl_1 = __nccwpck_require__(91745); exports.Node = NodeImpl_1.NodeImpl; var NodeIteratorImpl_1 = __nccwpck_require__(61997); exports.NodeIterator = NodeIteratorImpl_1.NodeIteratorImpl; var NodeListImpl_1 = __nccwpck_require__(43728); exports.NodeList = NodeListImpl_1.NodeListImpl; var NodeListStaticImpl_1 = __nccwpck_require__(65306); exports.NodeListStatic = NodeListStaticImpl_1.NodeListStaticImpl; var NonDocumentTypeChildNodeImpl_1 = __nccwpck_require__(71032); var NonElementParentNodeImpl_1 = __nccwpck_require__(90733); var ParentNodeImpl_1 = __nccwpck_require__(85988); var ProcessingInstructionImpl_1 = __nccwpck_require__(99430); exports.ProcessingInstruction = ProcessingInstructionImpl_1.ProcessingInstructionImpl; var RangeImpl_1 = __nccwpck_require__(50166); exports.Range = RangeImpl_1.RangeImpl; var ShadowRootImpl_1 = __nccwpck_require__(61911); exports.ShadowRoot = ShadowRootImpl_1.ShadowRootImpl; var SlotableImpl_1 = __nccwpck_require__(21964); var StaticRangeImpl_1 = __nccwpck_require__(86357); exports.StaticRange = StaticRangeImpl_1.StaticRangeImpl; var TextImpl_1 = __nccwpck_require__(42191); exports.Text = TextImpl_1.TextImpl; var TraverserImpl_1 = __nccwpck_require__(39782); exports.Traverser = TraverserImpl_1.TraverserImpl; var TreeWalkerImpl_1 = __nccwpck_require__(89261); exports.TreeWalker = TreeWalkerImpl_1.TreeWalkerImpl; var WindowImpl_1 = __nccwpck_require__(69067); exports.Window = WindowImpl_1.WindowImpl; var XMLDocumentImpl_1 = __nccwpck_require__(21685); exports.XMLDocument = XMLDocumentImpl_1.XMLDocumentImpl; // Apply mixins // ChildNode util_1.applyMixin(ElementImpl_1.ElementImpl, ChildNodeImpl_1.ChildNodeImpl); util_1.applyMixin(CharacterDataImpl_1.CharacterDataImpl, ChildNodeImpl_1.ChildNodeImpl); util_1.applyMixin(DocumentTypeImpl_1.DocumentTypeImpl, ChildNodeImpl_1.ChildNodeImpl); // DocumentOrShadowRoot util_1.applyMixin(DocumentImpl_1.DocumentImpl, DocumentOrShadowRootImpl_1.DocumentOrShadowRootImpl); util_1.applyMixin(ShadowRootImpl_1.ShadowRootImpl, DocumentOrShadowRootImpl_1.DocumentOrShadowRootImpl); // NonDocumentTypeChildNode util_1.applyMixin(ElementImpl_1.ElementImpl, NonDocumentTypeChildNodeImpl_1.NonDocumentTypeChildNodeImpl); util_1.applyMixin(CharacterDataImpl_1.CharacterDataImpl, NonDocumentTypeChildNodeImpl_1.NonDocumentTypeChildNodeImpl); // NonElementParentNode util_1.applyMixin(DocumentImpl_1.DocumentImpl, NonElementParentNodeImpl_1.NonElementParentNodeImpl); util_1.applyMixin(DocumentFragmentImpl_1.DocumentFragmentImpl, NonElementParentNodeImpl_1.NonElementParentNodeImpl); // ParentNode util_1.applyMixin(DocumentImpl_1.DocumentImpl, ParentNodeImpl_1.ParentNodeImpl); util_1.applyMixin(DocumentFragmentImpl_1.DocumentFragmentImpl, ParentNodeImpl_1.ParentNodeImpl); util_1.applyMixin(ElementImpl_1.ElementImpl, ParentNodeImpl_1.ParentNodeImpl); // Slotable util_1.applyMixin(TextImpl_1.TextImpl, SlotableImpl_1.SlotableImpl); util_1.applyMixin(ElementImpl_1.ElementImpl, SlotableImpl_1.SlotableImpl); //# sourceMappingURL=index.js.map /***/ }), /***/ 27305: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); /** * Defines the position of a boundary point relative to another. */ var BoundaryPosition; (function (BoundaryPosition) { BoundaryPosition[BoundaryPosition["Before"] = 0] = "Before"; BoundaryPosition[BoundaryPosition["Equal"] = 1] = "Equal"; BoundaryPosition[BoundaryPosition["After"] = 2] = "After"; })(BoundaryPosition = exports.BoundaryPosition || (exports.BoundaryPosition = {})); /** * Defines the event phase. */ var EventPhase; (function (EventPhase) { EventPhase[EventPhase["None"] = 0] = "None"; EventPhase[EventPhase["Capturing"] = 1] = "Capturing"; EventPhase[EventPhase["AtTarget"] = 2] = "AtTarget"; EventPhase[EventPhase["Bubbling"] = 3] = "Bubbling"; })(EventPhase = exports.EventPhase || (exports.EventPhase = {})); /** * Defines the type of a node object. */ var NodeType; (function (NodeType) { NodeType[NodeType["Element"] = 1] = "Element"; NodeType[NodeType["Attribute"] = 2] = "Attribute"; NodeType[NodeType["Text"] = 3] = "Text"; NodeType[NodeType["CData"] = 4] = "CData"; NodeType[NodeType["EntityReference"] = 5] = "EntityReference"; NodeType[NodeType["Entity"] = 6] = "Entity"; NodeType[NodeType["ProcessingInstruction"] = 7] = "ProcessingInstruction"; NodeType[NodeType["Comment"] = 8] = "Comment"; NodeType[NodeType["Document"] = 9] = "Document"; NodeType[NodeType["DocumentType"] = 10] = "DocumentType"; NodeType[NodeType["DocumentFragment"] = 11] = "DocumentFragment"; NodeType[NodeType["Notation"] = 12] = "Notation"; // historical })(NodeType = exports.NodeType || (exports.NodeType = {})); /** * Defines the position of a node in the document relative to another * node. */ var Position; (function (Position) { Position[Position["Disconnected"] = 1] = "Disconnected"; Position[Position["Preceding"] = 2] = "Preceding"; Position[Position["Following"] = 4] = "Following"; Position[Position["Contains"] = 8] = "Contains"; Position[Position["ContainedBy"] = 16] = "ContainedBy"; Position[Position["ImplementationSpecific"] = 32] = "ImplementationSpecific"; })(Position = exports.Position || (exports.Position = {})); /** * Defines the return value of a filter callback. */ var FilterResult; (function (FilterResult) { FilterResult[FilterResult["Accept"] = 1] = "Accept"; FilterResult[FilterResult["Reject"] = 2] = "Reject"; FilterResult[FilterResult["Skip"] = 3] = "Skip"; })(FilterResult = exports.FilterResult || (exports.FilterResult = {})); /** * Defines what to show in node filter. */ var WhatToShow; (function (WhatToShow) { WhatToShow[WhatToShow["All"] = 4294967295] = "All"; WhatToShow[WhatToShow["Element"] = 1] = "Element"; WhatToShow[WhatToShow["Attribute"] = 2] = "Attribute"; WhatToShow[WhatToShow["Text"] = 4] = "Text"; WhatToShow[WhatToShow["CDataSection"] = 8] = "CDataSection"; WhatToShow[WhatToShow["EntityReference"] = 16] = "EntityReference"; WhatToShow[WhatToShow["Entity"] = 32] = "Entity"; WhatToShow[WhatToShow["ProcessingInstruction"] = 64] = "ProcessingInstruction"; WhatToShow[WhatToShow["Comment"] = 128] = "Comment"; WhatToShow[WhatToShow["Document"] = 256] = "Document"; WhatToShow[WhatToShow["DocumentType"] = 512] = "DocumentType"; WhatToShow[WhatToShow["DocumentFragment"] = 1024] = "DocumentFragment"; WhatToShow[WhatToShow["Notation"] = 2048] = "Notation"; })(WhatToShow = exports.WhatToShow || (exports.WhatToShow = {})); /** * Defines how boundary points are compared. */ var HowToCompare; (function (HowToCompare) { HowToCompare[HowToCompare["StartToStart"] = 0] = "StartToStart"; HowToCompare[HowToCompare["StartToEnd"] = 1] = "StartToEnd"; HowToCompare[HowToCompare["EndToEnd"] = 2] = "EndToEnd"; HowToCompare[HowToCompare["EndToStart"] = 3] = "EndToStart"; })(HowToCompare = exports.HowToCompare || (exports.HowToCompare = {})); //# sourceMappingURL=interfaces.js.map /***/ }), /***/ 54646: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var dom_1 = __nccwpck_require__(50633); dom_1.dom.setFeatures(true); var dom_2 = __nccwpck_require__(50633); exports.DOMImplementation = dom_2.DOMImplementation; var parser_1 = __nccwpck_require__(36216); exports.DOMParser = parser_1.DOMParser; var serializer_1 = __nccwpck_require__(87119); exports.XMLSerializer = serializer_1.XMLSerializer; //# sourceMappingURL=index.js.map /***/ }), /***/ 98845: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var algorithm_1 = __nccwpck_require__(61); var XMLParserImpl_1 = __nccwpck_require__(64126); /** * Represents a parser for XML and HTML content. * * See: https://w3c.github.io/DOM-Parsing/#the-domparser-interface */ var DOMParserImpl = /** @class */ (function () { function DOMParserImpl() { } /** @inheritdoc */ DOMParserImpl.prototype.parseFromString = function (source, mimeType) { if (mimeType === "text/html") throw new Error('HTML parser not implemented.'); try { var parser = new XMLParserImpl_1.XMLParserImpl(); var doc = parser.parse(source); doc._contentType = mimeType; return doc; } catch (e) { var errorNS = "http://www.mozilla.org/newlayout/xml/parsererror.xml"; var doc = algorithm_1.create_xmlDocument(); var root = doc.createElementNS(errorNS, "parsererror"); var ele = doc.createElementNS(errorNS, "error"); ele.setAttribute("message", e.message); root.appendChild(ele); doc.appendChild(root); return doc; } }; return DOMParserImpl; }()); exports.DOMParserImpl = DOMParserImpl; //# sourceMappingURL=DOMParserImpl.js.map /***/ }), /***/ 64126: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __read = (this && this.__read) || function (o, n) { var m = typeof Symbol === "function" && o[Symbol.iterator]; if (!m) return o; var i = m.call(o), r, ar = [], e; try { while ((n === void 0 || n-- > 0) && !(r = i.next()).done) ar.push(r.value); } catch (error) { e = { error: error }; } finally { try { if (r && !r.done && (m = i["return"])) m.call(i); } finally { if (e) throw e.error; } } return ar; }; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; Object.defineProperty(exports, "__esModule", ({ value: true })); var XMLStringLexer_1 = __nccwpck_require__(47061); var interfaces_1 = __nccwpck_require__(97707); var infra_1 = __nccwpck_require__(84251); var algorithm_1 = __nccwpck_require__(61); var LocalNameSet_1 = __nccwpck_require__(19049); /** * Represents a parser for XML content. * * See: https://html.spec.whatwg.org/#xml-parser */ var XMLParserImpl = /** @class */ (function () { function XMLParserImpl() { } /** * Parses XML content. * * @param source - a string containing XML content */ XMLParserImpl.prototype.parse = function (source) { var e_1, _a, e_2, _b; var lexer = new XMLStringLexer_1.XMLStringLexer(source, { skipWhitespaceOnlyText: true }); var doc = algorithm_1.create_document(); var context = doc; var token = lexer.nextToken(); while (token.type !== interfaces_1.TokenType.EOF) { switch (token.type) { case interfaces_1.TokenType.Declaration: var declaration = token; if (declaration.version !== "1.0") { throw new Error("Invalid xml version: " + declaration.version); } break; case interfaces_1.TokenType.DocType: var doctype = token; if (!algorithm_1.xml_isPubidChar(doctype.pubId)) { throw new Error("DocType public identifier does not match PubidChar construct."); } if (!algorithm_1.xml_isLegalChar(doctype.sysId) || (doctype.sysId.indexOf('"') !== -1 && doctype.sysId.indexOf("'") !== -1)) { throw new Error("DocType system identifier contains invalid characters."); } context.appendChild(doc.implementation.createDocumentType(doctype.name, doctype.pubId, doctype.sysId)); break; case interfaces_1.TokenType.CDATA: var cdata = token; if (!algorithm_1.xml_isLegalChar(cdata.data) || cdata.data.indexOf("]]>") !== -1) { throw new Error("CDATA contains invalid characters."); } context.appendChild(doc.createCDATASection(cdata.data)); break; case interfaces_1.TokenType.Comment: var comment = token; if (!algorithm_1.xml_isLegalChar(comment.data) || comment.data.indexOf("--") !== -1 || comment.data.endsWith("-")) { throw new Error("Comment data contains invalid characters."); } context.appendChild(doc.createComment(comment.data)); break; case interfaces_1.TokenType.PI: var pi = token; if (pi.target.indexOf(":") !== -1 || (/^xml$/i).test(pi.target)) { throw new Error("Processing instruction target contains invalid characters."); } if (!algorithm_1.xml_isLegalChar(pi.data) || pi.data.indexOf("?>") !== -1) { throw new Error("Processing instruction data contains invalid characters."); } context.appendChild(doc.createProcessingInstruction(pi.target, pi.data)); break; case interfaces_1.TokenType.Text: var text = token; if (!algorithm_1.xml_isLegalChar(text.data)) { throw new Error("Text data contains invalid characters."); } context.appendChild(doc.createTextNode(text.data)); break; case interfaces_1.TokenType.Element: var element = token; // inherit namespace from parent var _c = __read(algorithm_1.namespace_extractQName(element.name), 2), prefix = _c[0], localName = _c[1]; if (localName.indexOf(":") !== -1 || !algorithm_1.xml_isName(localName)) { throw new Error("Node local name contains invalid characters."); } if (prefix === "xmlns") { throw new Error("An element cannot have the 'xmlns' prefix."); } var namespace = context.lookupNamespaceURI(prefix); // override namespace if there is a namespace declaration // attribute // also lookup namespace declaration attributes var nsDeclarations = {}; try { for (var _d = (e_1 = void 0, __values(element.attributes)), _e = _d.next(); !_e.done; _e = _d.next()) { var _f = __read(_e.value, 2), attName = _f[0], attValue = _f[1]; if (attName === "xmlns") { namespace = attValue; } else { var _g = __read(algorithm_1.namespace_extractQName(attName), 2), attPrefix = _g[0], attLocalName = _g[1]; if (attPrefix === "xmlns") { if (attLocalName === prefix) { namespace = attValue; } nsDeclarations[attLocalName] = attValue; } } } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_e && !_e.done && (_a = _d.return)) _a.call(_d); } finally { if (e_1) throw e_1.error; } } // create the DOM element node var elementNode = (namespace !== null ? doc.createElementNS(namespace, element.name) : doc.createElement(element.name)); context.appendChild(elementNode); // assign attributes var localNameSet = new LocalNameSet_1.LocalNameSet(); try { for (var _h = (e_2 = void 0, __values(element.attributes)), _j = _h.next(); !_j.done; _j = _h.next()) { var _k = __read(_j.value, 2), attName = _k[0], attValue = _k[1]; var _l = __read(algorithm_1.namespace_extractQName(attName), 2), attPrefix = _l[0], attLocalName = _l[1]; var attNamespace = null; if (attPrefix === "xmlns" || (attPrefix === null && attLocalName === "xmlns")) { // namespace declaration attribute attNamespace = infra_1.namespace.XMLNS; } else { attNamespace = elementNode.lookupNamespaceURI(attPrefix); if (attNamespace !== null && elementNode.isDefaultNamespace(attNamespace)) { attNamespace = null; } else if (attNamespace === null && attPrefix !== null) { attNamespace = nsDeclarations[attPrefix] || null; } } if (localNameSet.has(attNamespace, attLocalName)) { throw new Error("Element contains duplicate attributes."); } localNameSet.set(attNamespace, attLocalName); if (attNamespace === infra_1.namespace.XMLNS) { if (attValue === infra_1.namespace.XMLNS) { throw new Error("XMLNS namespace is reserved."); } } if (attLocalName.indexOf(":") !== -1 || !algorithm_1.xml_isName(attLocalName)) { throw new Error("Attribute local name contains invalid characters."); } if (attPrefix === "xmlns" && attValue === "") { throw new Error("Empty XML namespace is not allowed."); } if (attNamespace !== null) elementNode.setAttributeNS(attNamespace, attName, attValue); else elementNode.setAttribute(attName, attValue); } } catch (e_2_1) { e_2 = { error: e_2_1 }; } finally { try { if (_j && !_j.done && (_b = _h.return)) _b.call(_h); } finally { if (e_2) throw e_2.error; } } if (!element.selfClosing) { context = elementNode; } break; case interfaces_1.TokenType.ClosingTag: var closingTag = token; if (closingTag.name !== context.nodeName) { throw new Error('Closing tag name does not match opening tag name.'); } /* istanbul ignore else */ if (context._parent) { context = context._parent; } break; } token = lexer.nextToken(); } return doc; }; return XMLParserImpl; }()); exports.XMLParserImpl = XMLParserImpl; //# sourceMappingURL=XMLParserImpl.js.map /***/ }), /***/ 47061: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __read = (this && this.__read) || function (o, n) { var m = typeof Symbol === "function" && o[Symbol.iterator]; if (!m) return o; var i = m.call(o), r, ar = [], e; try { while ((n === void 0 || n-- > 0) && !(r = i.next()).done) ar.push(r.value); } catch (error) { e = { error: error }; } finally { try { if (r && !r.done && (m = i["return"])) m.call(i); } finally { if (e) throw e.error; } } return ar; }; Object.defineProperty(exports, "__esModule", ({ value: true })); var interfaces_1 = __nccwpck_require__(97707); /** * Represents a lexer for XML content in a string. */ var XMLStringLexer = /** @class */ (function () { /** * Initializes a new instance of `XMLStringLexer`. * * @param str - the string to tokenize and lex * @param options - lexer options */ function XMLStringLexer(str, options) { this._options = { skipWhitespaceOnlyText: false }; this.err = { line: -1, col: -1, index: -1, str: "" }; this._str = str; this._index = 0; this._length = str.length; if (options) { this._options.skipWhitespaceOnlyText = options.skipWhitespaceOnlyText || false; } } /** * Returns the next token. */ XMLStringLexer.prototype.nextToken = function () { if (this.eof()) { return { type: interfaces_1.TokenType.EOF }; } var token = (this.skipIfStartsWith('<') ? this.openBracket() : this.text()); if (this._options.skipWhitespaceOnlyText) { if (token.type === interfaces_1.TokenType.Text && XMLStringLexer.isWhiteSpaceToken(token)) { token = this.nextToken(); } } return token; }; /** * Branches from an opening bracket (`<`). */ XMLStringLexer.prototype.openBracket = function () { if (this.skipIfStartsWith('?')) { if (this.skipIfStartsWith('xml')) { if (XMLStringLexer.isSpace(this._str[this._index])) { return this.declaration(); } else { // a processing instruction starting with xml. e.g. this.seek(-3); return this.pi(); } } else { return this.pi(); } } else if (this.skipIfStartsWith('!')) { if (this.skipIfStartsWith('--')) { return this.comment(); } else if (this.skipIfStartsWith('[CDATA[')) { return this.cdata(); } else if (this.skipIfStartsWith('DOCTYPE')) { return this.doctype(); } else { this.throwError("Invalid '!' in opening tag."); } } else if (this.skipIfStartsWith('/')) { return this.closeTag(); } else { return this.openTag(); } }; /** * Produces an XML declaration token. */ XMLStringLexer.prototype.declaration = function () { var version = ''; var encoding = ''; var standalone = ''; while (!this.eof()) { this.skipSpace(); if (this.skipIfStartsWith('?>')) { return { type: interfaces_1.TokenType.Declaration, version: version, encoding: encoding, standalone: standalone }; } else { // attribute name var _a = __read(this.attribute(), 2), attName = _a[0], attValue = _a[1]; if (attName === 'version') version = attValue; else if (attName === 'encoding') encoding = attValue; else if (attName === 'standalone') standalone = attValue; else this.throwError('Invalid attribute name: ' + attName); } } this.throwError('Missing declaration end symbol `?>`'); }; /** * Produces a doc type token. */ XMLStringLexer.prototype.doctype = function () { var pubId = ''; var sysId = ''; // name this.skipSpace(); var name = this.takeUntil2('[', '>', true); this.skipSpace(); if (this.skipIfStartsWith('PUBLIC')) { pubId = this.quotedString(); sysId = this.quotedString(); } else if (this.skipIfStartsWith('SYSTEM')) { sysId = this.quotedString(); } // skip internal subset this.skipSpace(); if (this.skipIfStartsWith('[')) { // skip internal subset nodes this.skipUntil(']'); if (!this.skipIfStartsWith(']')) { this.throwError('Missing end bracket of DTD internal subset'); } } this.skipSpace(); if (!this.skipIfStartsWith('>')) { this.throwError('Missing doctype end symbol `>`'); } return { type: interfaces_1.TokenType.DocType, name: name, pubId: pubId, sysId: sysId }; }; /** * Produces a processing instruction token. */ XMLStringLexer.prototype.pi = function () { var target = this.takeUntilStartsWith('?>', true); if (this.eof()) { this.throwError('Missing processing instruction end symbol `?>`'); } this.skipSpace(); if (this.skipIfStartsWith('?>')) { return { type: interfaces_1.TokenType.PI, target: target, data: '' }; } var data = this.takeUntilStartsWith('?>'); if (this.eof()) { this.throwError('Missing processing instruction end symbol `?>`'); } this.seek(2); return { type: interfaces_1.TokenType.PI, target: target, data: data }; }; /** * Produces a text token. * */ XMLStringLexer.prototype.text = function () { var data = this.takeUntil('<'); return { type: interfaces_1.TokenType.Text, data: data }; }; /** * Produces a comment token. * */ XMLStringLexer.prototype.comment = function () { var data = this.takeUntilStartsWith('-->'); if (this.eof()) { this.throwError('Missing comment end symbol `-->`'); } this.seek(3); return { type: interfaces_1.TokenType.Comment, data: data }; }; /** * Produces a CDATA token. * */ XMLStringLexer.prototype.cdata = function () { var data = this.takeUntilStartsWith(']]>'); if (this.eof()) { this.throwError('Missing CDATA end symbol `]>`'); } this.seek(3); return { type: interfaces_1.TokenType.CDATA, data: data }; }; /** * Produces an element token. */ XMLStringLexer.prototype.openTag = function () { // element name this.skipSpace(); var name = this.takeUntil2('>', '/', true); this.skipSpace(); if (this.skipIfStartsWith('>')) { return { type: interfaces_1.TokenType.Element, name: name, attributes: [], selfClosing: false }; } else if (this.skipIfStartsWith('/>')) { return { type: interfaces_1.TokenType.Element, name: name, attributes: [], selfClosing: true }; } // attributes var attributes = []; while (!this.eof()) { // end tag this.skipSpace(); if (this.skipIfStartsWith('>')) { return { type: interfaces_1.TokenType.Element, name: name, attributes: attributes, selfClosing: false }; } else if (this.skipIfStartsWith('/>')) { return { type: interfaces_1.TokenType.Element, name: name, attributes: attributes, selfClosing: true }; } var attr = this.attribute(); attributes.push(attr); } this.throwError('Missing opening element tag end symbol `>`'); }; /** * Produces a closing tag token. * */ XMLStringLexer.prototype.closeTag = function () { this.skipSpace(); var name = this.takeUntil('>', true); this.skipSpace(); if (!this.skipIfStartsWith('>')) { this.throwError('Missing closing element tag end symbol `>`'); } return { type: interfaces_1.TokenType.ClosingTag, name: name }; }; /** * Reads an attribute name, value pair */ XMLStringLexer.prototype.attribute = function () { // attribute name this.skipSpace(); var name = this.takeUntil('=', true); this.skipSpace(); if (!this.skipIfStartsWith('=')) { this.throwError('Missing equals sign before attribute value'); } // attribute value var value = this.quotedString(); return [name, value]; }; /** * Reads a string between double or single quotes. */ XMLStringLexer.prototype.quotedString = function () { this.skipSpace(); var startQuote = this.take(1); if (!XMLStringLexer.isQuote(startQuote)) { this.throwError('Missing start quote character before quoted value'); } var value = this.takeUntil(startQuote); if (!this.skipIfStartsWith(startQuote)) { this.throwError('Missing end quote character after quoted value'); } return value; }; /** * Determines if the current index is at or past the end of input string. */ XMLStringLexer.prototype.eof = function () { return this._index >= this._length; }; /** * Skips the length of the given string if the string from current position * starts with the given string. * * @param str - the string to match */ XMLStringLexer.prototype.skipIfStartsWith = function (str) { var strLength = str.length; if (strLength === 1) { if (this._str[this._index] === str) { this._index++; return true; } else { return false; } } for (var i = 0; i < strLength; i++) { if (this._str[this._index + i] !== str[i]) return false; } this._index += strLength; return true; }; /** * Seeks a number of character codes. * * @param count - number of characters to skip */ XMLStringLexer.prototype.seek = function (count) { this._index += count; if (this._index < 0) this._index = 0; if (this._index > this._length) this._index = this._length; }; /** * Skips space characters. */ XMLStringLexer.prototype.skipSpace = function () { while (!this.eof() && (XMLStringLexer.isSpace(this._str[this._index]))) { this._index++; } }; /** * Takes a given number of characters. * * @param count - character count */ XMLStringLexer.prototype.take = function (count) { if (count === 1) { return this._str[this._index++]; } var startIndex = this._index; this.seek(count); return this._str.slice(startIndex, this._index); }; /** * Takes characters until the next character matches `char`. * * @param char - a character to match * @param space - whether a space character stops iteration */ XMLStringLexer.prototype.takeUntil = function (char, space) { if (space === void 0) { space = false; } var startIndex = this._index; while (this._index < this._length) { var c = this._str[this._index]; if (c !== char && (!space || !XMLStringLexer.isSpace(c))) { this._index++; } else { break; } } return this._str.slice(startIndex, this._index); }; /** * Takes characters until the next character matches `char1` or `char1`. * * @param char1 - a character to match * @param char2 - a character to match * @param space - whether a space character stops iteration */ XMLStringLexer.prototype.takeUntil2 = function (char1, char2, space) { if (space === void 0) { space = false; } var startIndex = this._index; while (this._index < this._length) { var c = this._str[this._index]; if (c !== char1 && c !== char2 && (!space || !XMLStringLexer.isSpace(c))) { this._index++; } else { break; } } return this._str.slice(startIndex, this._index); }; /** * Takes characters until the next characters matches `str`. * * @param str - a string to match * @param space - whether a space character stops iteration */ XMLStringLexer.prototype.takeUntilStartsWith = function (str, space) { if (space === void 0) { space = false; } var startIndex = this._index; var strLength = str.length; while (this._index < this._length) { var match = true; for (var i = 0; i < strLength; i++) { var c = this._str[this._index + i]; var char = str[i]; if (space && XMLStringLexer.isSpace(c)) { return this._str.slice(startIndex, this._index); } else if (c !== char) { this._index++; match = false; break; } } if (match) return this._str.slice(startIndex, this._index); } this._index = this._length; return this._str.slice(startIndex); }; /** * Skips characters until the next character matches `char`. * * @param char - a character to match */ XMLStringLexer.prototype.skipUntil = function (char) { while (this._index < this._length) { var c = this._str[this._index]; if (c !== char) { this._index++; } else { break; } } }; /** * Determines if the given token is entirely whitespace. * * @param token - the token to check */ XMLStringLexer.isWhiteSpaceToken = function (token) { var str = token.data; for (var i = 0; i < str.length; i++) { var c = str[i]; if (c !== ' ' && c !== '\n' && c !== '\r' && c !== '\t' && c !== '\f') return false; } return true; }; /** * Determines if the given character is whitespace. * * @param char - the character to check */ XMLStringLexer.isSpace = function (char) { return char === ' ' || char === '\n' || char === '\r' || char === '\t'; }; /** * Determines if the given character is a quote character. * * @param char - the character to check */ XMLStringLexer.isQuote = function (char) { return (char === '"' || char === '\''); }; /** * Throws a parser error and records the line and column numbers in the parsed * string. * * @param msg - error message */ XMLStringLexer.prototype.throwError = function (msg) { var regexp = /\r\n|\r|\n/g; var match = null; var line = 0; var firstNewLineIndex = 0; var lastNewlineIndex = this._str.length; while ((match = regexp.exec(this._str)) !== null) { if (match === null) break; line++; if (match.index < this._index) firstNewLineIndex = regexp.lastIndex; if (match.index > this._index) { lastNewlineIndex = match.index; break; } } this.err = { line: line, col: this._index - firstNewLineIndex, index: this._index, str: this._str.substring(firstNewLineIndex, lastNewlineIndex) }; throw new Error(msg + "\nIndex: " + this.err.index + "\nLn: " + this.err.line + ", Col: " + this.err.col + "\nInput: " + this.err.str); }; /** * Returns an iterator for the lexer. */ XMLStringLexer.prototype[Symbol.iterator] = function () { this._index = 0; return { next: function () { var token = this.nextToken(); if (token.type === interfaces_1.TokenType.EOF) { return { done: true, value: null }; } else { return { done: false, value: token }; } }.bind(this) }; }; return XMLStringLexer; }()); exports.XMLStringLexer = XMLStringLexer; //# sourceMappingURL=XMLStringLexer.js.map /***/ }), /***/ 36216: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); // Export classes var DOMParserImpl_1 = __nccwpck_require__(98845); exports.DOMParser = DOMParserImpl_1.DOMParserImpl; //# sourceMappingURL=index.js.map /***/ }), /***/ 97707: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); /** * Defines the type of a token. */ var TokenType; (function (TokenType) { TokenType[TokenType["EOF"] = 0] = "EOF"; TokenType[TokenType["Declaration"] = 1] = "Declaration"; TokenType[TokenType["DocType"] = 2] = "DocType"; TokenType[TokenType["Element"] = 3] = "Element"; TokenType[TokenType["Text"] = 4] = "Text"; TokenType[TokenType["CDATA"] = 5] = "CDATA"; TokenType[TokenType["PI"] = 6] = "PI"; TokenType[TokenType["Comment"] = 7] = "Comment"; TokenType[TokenType["ClosingTag"] = 8] = "ClosingTag"; })(TokenType = exports.TokenType || (exports.TokenType = {})); //# sourceMappingURL=interfaces.js.map /***/ }), /***/ 19049: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); /** * Represents a set of unique attribute namespaceURI and localName pairs. * This set will contain tuples of unique attribute namespaceURI and * localName pairs, and is populated as each attr is processed. This set is * used to [optionally] enforce the well-formed constraint that an element * cannot have two attributes with the same namespaceURI and localName. * This can occur when two otherwise identical attributes on the same * element differ only by their prefix values. */ var LocalNameSet = /** @class */ (function () { function LocalNameSet() { // tuple storage this._items = {}; this._nullItems = {}; } /** * Adds or replaces a tuple. * * @param ns - namespace URI * @param localName - attribute local name */ LocalNameSet.prototype.set = function (ns, localName) { if (ns === null) { this._nullItems[localName] = true; } else if (this._items[ns]) { this._items[ns][localName] = true; } else { this._items[ns] = {}; this._items[ns][localName] = true; } }; /** * Determines if the given tuple exists in the set. * * @param ns - namespace URI * @param localName - attribute local name */ LocalNameSet.prototype.has = function (ns, localName) { if (ns === null) { return this._nullItems[localName] === true; } else if (this._items[ns]) { return this._items[ns][localName] === true; } else { return false; } }; return LocalNameSet; }()); exports.LocalNameSet = LocalNameSet; //# sourceMappingURL=LocalNameSet.js.map /***/ }), /***/ 90283: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); /** * A namespace prefix map is a map that associates namespaceURI and namespace * prefix lists, where namespaceURI values are the map's unique keys (which can * include the null value representing no namespace), and ordered lists of * associated prefix values are the map's key values. The namespace prefix map * will be populated by previously seen namespaceURIs and all their previously * encountered prefix associations for a given node and its ancestors. * * _Note:_ The last seen prefix for a given namespaceURI is at the end of its * respective list. The list is searched to find potentially matching prefixes, * and if no matches are found for the given namespaceURI, then the last prefix * in the list is used. See copy a namespace prefix map and retrieve a preferred * prefix string for additional details. * * See: https://w3c.github.io/DOM-Parsing/#the-namespace-prefix-map */ var NamespacePrefixMap = /** @class */ (function () { function NamespacePrefixMap() { this._items = {}; this._nullItems = []; } /** * Creates a copy of the map. */ NamespacePrefixMap.prototype.copy = function () { /** * To copy a namespace prefix map map means to copy the map's keys into a * new empty namespace prefix map, and to copy each of the values in the * namespace prefix list associated with each keys' value into a new list * which should be associated with the respective key in the new map. */ var mapCopy = new NamespacePrefixMap(); for (var key in this._items) { mapCopy._items[key] = this._items[key].slice(0); } mapCopy._nullItems = this._nullItems.slice(0); return mapCopy; }; /** * Retrieves a preferred prefix string from the namespace prefix map. * * @param preferredPrefix - preferred prefix string * @param ns - namespace */ NamespacePrefixMap.prototype.get = function (preferredPrefix, ns) { /** * 1. Let candidates list be the result of retrieving a list from map where * there exists a key in map that matches the value of ns or if there is no * such key, then stop running these steps, and return the null value. */ var candidatesList = ns === null ? this._nullItems : (this._items[ns] || null); if (candidatesList === null) { return null; } /** * 2. Otherwise, for each prefix value prefix in candidates list, iterating * from beginning to end: * * _Note:_ There will always be at least one prefix value in the list. */ var prefix = null; for (var i = 0; i < candidatesList.length; i++) { prefix = candidatesList[i]; /** * 2.1. If prefix matches preferred prefix, then stop running these steps * and return prefix. */ if (prefix === preferredPrefix) { return prefix; } } /** * 2.2. If prefix is the last item in the candidates list, then stop * running these steps and return prefix. */ return prefix; }; /** * Checks if a prefix string is found in the namespace prefix map associated * with the given namespace. * * @param prefix - prefix string * @param ns - namespace */ NamespacePrefixMap.prototype.has = function (prefix, ns) { /** * 1. Let candidates list be the result of retrieving a list from map where * there exists a key in map that matches the value of ns or if there is * no such key, then stop running these steps, and return false. */ var candidatesList = ns === null ? this._nullItems : (this._items[ns] || null); if (candidatesList === null) { return false; } /** * 2. If the value of prefix occurs at least once in candidates list, * return true, otherwise return false. */ return (candidatesList.indexOf(prefix) !== -1); }; /** * Checks if a prefix string is found in the namespace prefix map. * * @param prefix - prefix string */ NamespacePrefixMap.prototype.hasPrefix = function (prefix) { if (this._nullItems.indexOf(prefix) !== -1) return true; for (var key in this._items) { if (this._items[key].indexOf(prefix) !== -1) return true; } return false; }; /** * Adds a prefix string associated with a namespace to the prefix map. * * @param prefix - prefix string * @param ns - namespace */ NamespacePrefixMap.prototype.set = function (prefix, ns) { /** * 1. Let candidates list be the result of retrieving a list from map where * there exists a key in map that matches the value of ns or if there is * no such key, then let candidates list be null. */ var candidatesList = ns === null ? this._nullItems : (this._items[ns] || null); /** * 2. If candidates list is null, then create a new list with prefix as the * only item in the list, and associate that list with a new key ns in map. * 3. Otherwise, append prefix to the end of candidates list. * * _Note:_ The steps in retrieve a preferred prefix string use the list to * track the most recently used (MRU) prefix associated with a given * namespace, which will be the prefix at the end of the list. This list * may contain duplicates of the same prefix value seen earlier * (and that's OK). */ if (ns !== null && candidatesList === null) { this._items[ns] = [prefix]; } else { candidatesList.push(prefix); } }; return NamespacePrefixMap; }()); exports.NamespacePrefixMap = NamespacePrefixMap; //# sourceMappingURL=NamespacePrefixMap.js.map /***/ }), /***/ 85039: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; Object.defineProperty(exports, "__esModule", ({ value: true })); var interfaces_1 = __nccwpck_require__(27305); var LocalNameSet_1 = __nccwpck_require__(19049); var NamespacePrefixMap_1 = __nccwpck_require__(90283); var DOMException_1 = __nccwpck_require__(13166); var infra_1 = __nccwpck_require__(84251); var algorithm_1 = __nccwpck_require__(61); /** * Represents an XML serializer. * * Implements: https://www.w3.org/TR/DOM-Parsing/#serializing */ var XMLSerializerImpl = /** @class */ (function () { function XMLSerializerImpl() { } /** @inheritdoc */ XMLSerializerImpl.prototype.serializeToString = function (root) { /** * The serializeToString(root) method must produce an XML serialization * of root passing a value of false for the require well-formed parameter, * and return the result. */ return this._xmlSerialization(root, false); }; /** * Produces an XML serialization of the given node. * * @param node - node to serialize * @param requireWellFormed - whether to check conformance */ XMLSerializerImpl.prototype._xmlSerialization = function (node, requireWellFormed) { // To increase performance, use a namespace-aware serializer only if the // document has namespaced elements if (node._nodeDocument === undefined || node._nodeDocument._hasNamespaces) { /** From: https://w3c.github.io/DOM-Parsing/#xml-serialization * * 1. Let namespace be a context namespace with value null. * The context namespace tracks the XML serialization algorithm's current * default namespace. The context namespace is changed when either an Element * Node has a default namespace declaration, or the algorithm generates a * default namespace declaration for the Element Node to match its own * namespace. The algorithm assumes no namespace (null) to start. * 2. Let prefix map be a new namespace prefix map. * 3. Add the XML namespace with prefix value "xml" to prefix map. * 4. Let prefix index be a generated namespace prefix index with value 1. * The generated namespace prefix index is used to generate a new unique * prefix value when no suitable existing namespace prefix is available to * serialize a node's namespaceURI (or the namespaceURI of one of node's * attributes). See the generate a prefix algorithm. */ var namespace = null; var prefixMap = new NamespacePrefixMap_1.NamespacePrefixMap(); prefixMap.set("xml", infra_1.namespace.XML); var prefixIndex = { value: 1 }; /** * 5. Return the result of running the XML serialization algorithm on node * passing the context namespace namespace, namespace prefix map prefix map, * generated namespace prefix index reference to prefix index, and the * flag require well-formed. If an exception occurs during the execution * of the algorithm, then catch that exception and throw an * "InvalidStateError" DOMException. */ try { return this._serializeNodeNS(node, namespace, prefixMap, prefixIndex, requireWellFormed); } catch (_a) { throw new DOMException_1.InvalidStateError(); } } else { try { return this._serializeNode(node, requireWellFormed); } catch (_b) { throw new DOMException_1.InvalidStateError(); } } }; /** * Produces an XML serialization of a node. * * @param node - node to serialize * @param namespace - context namespace * @param prefixMap - namespace prefix map * @param prefixIndex - generated namespace prefix index * @param requireWellFormed - whether to check conformance */ XMLSerializerImpl.prototype._serializeNodeNS = function (node, namespace, prefixMap, prefixIndex, requireWellFormed) { switch (node.nodeType) { case interfaces_1.NodeType.Element: return this._serializeElementNS(node, namespace, prefixMap, prefixIndex, requireWellFormed); case interfaces_1.NodeType.Document: return this._serializeDocumentNS(node, namespace, prefixMap, prefixIndex, requireWellFormed); case interfaces_1.NodeType.Comment: return this._serializeComment(node, requireWellFormed); case interfaces_1.NodeType.Text: return this._serializeText(node, requireWellFormed); case interfaces_1.NodeType.DocumentFragment: return this._serializeDocumentFragmentNS(node, namespace, prefixMap, prefixIndex, requireWellFormed); case interfaces_1.NodeType.DocumentType: return this._serializeDocumentType(node, requireWellFormed); case interfaces_1.NodeType.ProcessingInstruction: return this._serializeProcessingInstruction(node, requireWellFormed); case interfaces_1.NodeType.CData: return this._serializeCData(node, requireWellFormed); default: throw new Error("Unknown node type: " + node.nodeType); } }; /** * Produces an XML serialization of a node. * * @param node - node to serialize * @param requireWellFormed - whether to check conformance */ XMLSerializerImpl.prototype._serializeNode = function (node, requireWellFormed) { switch (node.nodeType) { case interfaces_1.NodeType.Element: return this._serializeElement(node, requireWellFormed); case interfaces_1.NodeType.Document: return this._serializeDocument(node, requireWellFormed); case interfaces_1.NodeType.Comment: return this._serializeComment(node, requireWellFormed); case interfaces_1.NodeType.Text: return this._serializeText(node, requireWellFormed); case interfaces_1.NodeType.DocumentFragment: return this._serializeDocumentFragment(node, requireWellFormed); case interfaces_1.NodeType.DocumentType: return this._serializeDocumentType(node, requireWellFormed); case interfaces_1.NodeType.ProcessingInstruction: return this._serializeProcessingInstruction(node, requireWellFormed); case interfaces_1.NodeType.CData: return this._serializeCData(node, requireWellFormed); default: throw new Error("Unknown node type: " + node.nodeType); } }; /** * Produces an XML serialization of an element node. * * @param node - node to serialize * @param namespace - context namespace * @param prefixMap - namespace prefix map * @param prefixIndex - generated namespace prefix index * @param requireWellFormed - whether to check conformance */ XMLSerializerImpl.prototype._serializeElementNS = function (node, namespace, prefixMap, prefixIndex, requireWellFormed) { var e_1, _a; /** * From: https://w3c.github.io/DOM-Parsing/#xml-serializing-an-element-node * * 1. If the require well-formed flag is set (its value is true), and this * node's localName attribute contains the character ":" (U+003A COLON) or * does not match the XML Name production, then throw an exception; the * serialization of this node would not be a well-formed element. */ if (requireWellFormed && (node.localName.indexOf(":") !== -1 || !algorithm_1.xml_isName(node.localName))) { throw new Error("Node local name contains invalid characters (well-formed required)."); } /** * 2. Let markup be the string "<" (U+003C LESS-THAN SIGN). * 3. Let qualified name be an empty string. * 4. Let skip end tag be a boolean flag with value false. * 5. Let ignore namespace definition attribute be a boolean flag with value * false. * 6. Given prefix map, copy a namespace prefix map and let map be the * result. * 7. Let local prefixes map be an empty map. The map has unique Node prefix * strings as its keys, with corresponding namespaceURI Node values as the * map's key values (in this map, the null namespace is represented by the * empty string). * * _Note:_ This map is local to each element. It is used to ensure there * are no conflicting prefixes should a new namespace prefix attribute need * to be generated. It is also used to enable skipping of duplicate prefix * definitions when writing an element's attributes: the map allows the * algorithm to distinguish between a prefix in the namespace prefix map * that might be locally-defined (to the current Element) and one that is * not. * 8. Let local default namespace be the result of recording the namespace * information for node given map and local prefixes map. * * _Note:_ The above step will update map with any found namespace prefix * definitions, add the found prefix definitions to the local prefixes map * and return a local default namespace value defined by a default namespace * attribute if one exists. Otherwise it returns null. * 9. Let inherited ns be a copy of namespace. * 10. Let ns be the value of node's namespaceURI attribute. */ var markup = "<"; var qualifiedName = ''; var skipEndTag = false; var ignoreNamespaceDefinitionAttribute = false; var map = prefixMap.copy(); var localPrefixesMap = {}; var localDefaultNamespace = this._recordNamespaceInformation(node, map, localPrefixesMap); var inheritedNS = namespace; var ns = node.namespaceURI; /** 11. If inherited ns is equal to ns, then: */ if (inheritedNS === ns) { /** * 11.1. If local default namespace is not null, then set ignore * namespace definition attribute to true. */ if (localDefaultNamespace !== null) { ignoreNamespaceDefinitionAttribute = true; } /** * 11.2. If ns is the XML namespace, then append to qualified name the * concatenation of the string "xml:" and the value of node's localName. * 11.3. Otherwise, append to qualified name the value of node's * localName. The node's prefix if it exists, is dropped. */ if (ns === infra_1.namespace.XML) { qualifiedName = 'xml:' + node.localName; } else { qualifiedName = node.localName; } /** 11.4. Append the value of qualified name to markup. */ markup += qualifiedName; } else { /** * 12. Otherwise, inherited ns is not equal to ns (the node's own * namespace is different from the context namespace of its parent). * Run these sub-steps: * * 12.1. Let prefix be the value of node's prefix attribute. * 12.2. Let candidate prefix be the result of retrieving a preferred * prefix string prefix from map given namespace ns. The above may return * null if no namespace key ns exists in map. */ var prefix = node.prefix; /** * We don't need to run "retrieving a preferred prefix string" algorithm if * the element has no prefix and its namespace matches to the default * namespace. * See: https://github.com/web-platform-tests/wpt/pull/16703 */ var candidatePrefix = null; if (prefix !== null || ns !== localDefaultNamespace) { candidatePrefix = map.get(prefix, ns); } /** * 12.3. If the value of prefix matches "xmlns", then run the following * steps: */ if (prefix === "xmlns") { /** * 12.3.1. If the require well-formed flag is set, then throw an error. * An Element with prefix "xmlns" will not legally round-trip in a * conforming XML parser. */ if (requireWellFormed) { throw new Error("An element cannot have the 'xmlns' prefix (well-formed required)."); } /** * 12.3.2. Let candidate prefix be the value of prefix. */ candidatePrefix = prefix; } /** * 12.4.Found a suitable namespace prefix: if candidate prefix is not * null (a namespace prefix is defined which maps to ns), then: */ if (candidatePrefix !== null) { /** * The following may serialize a different prefix than the Element's * existing prefix if it already had one. However, the retrieving a * preferred prefix string algorithm already tried to match the * existing prefix if possible. * * 12.4.1. Append to qualified name the concatenation of candidate * prefix, ":" (U+003A COLON), and node's localName. There exists on * this node or the node's ancestry a namespace prefix definition that * defines the node's namespace. * 12.4.2. If the local default namespace is not null (there exists a * locally-defined default namespace declaration attribute) and its * value is not the XML namespace, then let inherited ns get the value * of local default namespace unless the local default namespace is the * empty string in which case let it get null (the context namespace * is changed to the declared default, rather than this node's own * namespace). * * _Note:_ Any default namespace definitions or namespace prefixes that * define the XML namespace are omitted when serializing this node's * attributes. */ qualifiedName = candidatePrefix + ':' + node.localName; if (localDefaultNamespace !== null && localDefaultNamespace !== infra_1.namespace.XML) { inheritedNS = localDefaultNamespace || null; } /** * 12.4.3. Append the value of qualified name to markup. */ markup += qualifiedName; /** 12.5. Otherwise, if prefix is not null, then: */ } else if (prefix !== null) { /** * _Note:_ By this step, there is no namespace or prefix mapping * declaration in this node (or any parent node visited by this * algorithm) that defines prefix otherwise the step labelled Found * a suitable namespace prefix would have been followed. The sub-steps * that follow will create a new namespace prefix declaration for prefix * and ensure that prefix does not conflict with an existing namespace * prefix declaration of the same localName in node's attribute list. * * 12.5.1. If the local prefixes map contains a key matching prefix, * then let prefix be the result of generating a prefix providing as * input map, ns, and prefix index. */ if (prefix in localPrefixesMap) { prefix = this._generatePrefix(ns, map, prefixIndex); } /** * 12.5.2. Add prefix to map given namespace ns. * 12.5.3. Append to qualified name the concatenation of prefix, ":" * (U+003A COLON), and node's localName. * 12.5.4. Append the value of qualified name to markup. */ map.set(prefix, ns); qualifiedName += prefix + ':' + node.localName; markup += qualifiedName; /** * 12.5.5. Append the following to markup, in the order listed: * * _Note:_ The following serializes a namespace prefix declaration for * prefix which was just added to the map. * * 12.5.5.1. " " (U+0020 SPACE); * 12.5.5.2. The string "xmlns:"; * 12.5.5.3. The value of prefix; * 12.5.5.4. "="" (U+003D EQUALS SIGN, U+0022 QUOTATION MARK); * 12.5.5.5. The result of serializing an attribute value given ns and * the require well-formed flag as input; * 12.5.5.6. """ (U+0022 QUOTATION MARK). */ markup += " xmlns:" + prefix + "=\"" + this._serializeAttributeValue(ns, requireWellFormed) + "\""; /** * 12.5.5.7. If local default namespace is not null (there exists a * locally-defined default namespace declaration attribute), then * let inherited ns get the value of local default namespace unless the * local default namespace is the empty string in which case let it get * null. */ if (localDefaultNamespace !== null) { inheritedNS = localDefaultNamespace || null; } /** * 12.6. Otherwise, if local default namespace is null, or local * default namespace is not null and its value is not equal to ns, then: */ } else if (localDefaultNamespace === null || (localDefaultNamespace !== null && localDefaultNamespace !== ns)) { /** * _Note:_ At this point, the namespace for this node still needs to be * serialized, but there's no prefix (or candidate prefix) available; the * following uses the default namespace declaration to define the * namespace--optionally replacing an existing default declaration * if present. * * 12.6.1. Set the ignore namespace definition attribute flag to true. * 12.6.2. Append to qualified name the value of node's localName. * 12.6.3. Let the value of inherited ns be ns. * * _Note:_ The new default namespace will be used in the serialization * to define this node's namespace and act as the context namespace for * its children. */ ignoreNamespaceDefinitionAttribute = true; qualifiedName += node.localName; inheritedNS = ns; /** * 12.6.4. Append the value of qualified name to markup. */ markup += qualifiedName; /** * 12.6.5. Append the following to markup, in the order listed: * * _Note:_ The following serializes the new (or replacement) default * namespace definition. * * 12.6.5.1. " " (U+0020 SPACE); * 12.6.5.2. The string "xmlns"; * 12.6.5.3. "="" (U+003D EQUALS SIGN, U+0022 QUOTATION MARK); * 12.6.5.4. The result of serializing an attribute value given ns * and the require well-formed flag as input; * 12.6.5.5. """ (U+0022 QUOTATION MARK). */ markup += " xmlns" + "=\"" + this._serializeAttributeValue(ns, requireWellFormed) + "\""; /** * 12.7. Otherwise, the node has a local default namespace that matches * ns. Append to qualified name the value of node's localName, let the * value of inherited ns be ns, and append the value of qualified name * to markup. */ } else { qualifiedName += node.localName; inheritedNS = ns; markup += qualifiedName; } } /** * 13. Append to markup the result of the XML serialization of node's * attributes given map, prefix index, local prefixes map, ignore namespace * definition attribute flag, and require well-formed flag. */ markup += this._serializeAttributesNS(node, map, prefixIndex, localPrefixesMap, ignoreNamespaceDefinitionAttribute, requireWellFormed); /** * 14. If ns is the HTML namespace, and the node's list of children is * empty, and the node's localName matches any one of the following void * elements: "area", "base", "basefont", "bgsound", "br", "col", "embed", * "frame", "hr", "img", "input", "keygen", "link", "menuitem", "meta", * "param", "source", "track", "wbr"; then append the following to markup, * in the order listed: * 14.1. " " (U+0020 SPACE); * 14.2. "/" (U+002F SOLIDUS). * and set the skip end tag flag to true. * 15. If ns is not the HTML namespace, and the node's list of children is * empty, then append "/" (U+002F SOLIDUS) to markup and set the skip end * tag flag to true. * 16. Append ">" (U+003E GREATER-THAN SIGN) to markup. */ var isHTML = (ns === infra_1.namespace.HTML); if (isHTML && node.childNodes.length === 0 && XMLSerializerImpl._VoidElementNames.has(node.localName)) { markup += " /"; skipEndTag = true; } else if (!isHTML && node.childNodes.length === 0) { markup += "/"; skipEndTag = true; } markup += ">"; /** * 17. If the value of skip end tag is true, then return the value of markup * and skip the remaining steps. The node is a leaf-node. */ if (skipEndTag) return markup; /** * 18. If ns is the HTML namespace, and the node's localName matches the * string "template", then this is a template element. Append to markup the * result of XML serializing a DocumentFragment node given the template * element's template contents (a DocumentFragment), providing inherited * ns, map, prefix index, and the require well-formed flag. * * _Note:_ This allows template content to round-trip, given the rules for * parsing XHTML documents. * * 19. Otherwise, append to markup the result of running the XML * serialization algorithm on each of node's children, in tree order, * providing inherited ns, map, prefix index, and the require well-formed * flag. */ if (isHTML && node.localName === "template") { // TODO: serialize template contents } else { try { for (var _b = __values(node._children || node.childNodes), _c = _b.next(); !_c.done; _c = _b.next()) { var childNode = _c.value; markup += this._serializeNodeNS(childNode, inheritedNS, map, prefixIndex, requireWellFormed); } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_1) throw e_1.error; } } } /** * 20. Append the following to markup, in the order listed: * 20.1. "" (U+003E GREATER-THAN SIGN). */ markup += ""; /** * 21. Return the value of markup. */ return markup; }; /** * Produces an XML serialization of a document node. * * @param node - node to serialize * @param namespace - context namespace * @param prefixMap - namespace prefix map * @param prefixIndex - generated namespace prefix index * @param requireWellFormed - whether to check conformance */ XMLSerializerImpl.prototype._serializeDocumentNS = function (node, namespace, prefixMap, prefixIndex, requireWellFormed) { var e_2, _a; /** * If the require well-formed flag is set (its value is true), and this node * has no documentElement (the documentElement attribute's value is null), * then throw an exception; the serialization of this node would not be a * well-formed document. */ if (requireWellFormed && node.documentElement === null) { throw new Error("Missing document element (well-formed required)."); } /** * Otherwise, run the following steps: * 1. Let serialized document be an empty string. * 2. For each child child of node, in tree order, run the XML * serialization algorithm on the child passing along the provided * arguments, and append the result to serialized document. * * _Note:_ This will serialize any number of ProcessingInstruction and * Comment nodes both before and after the Document's documentElement node, * including at most one DocumentType node. (Text nodes are not allowed as * children of the Document.) * * 3. Return the value of serialized document. */ var serializedDocument = ""; try { for (var _b = __values(node._children || node.childNodes), _c = _b.next(); !_c.done; _c = _b.next()) { var childNode = _c.value; serializedDocument += this._serializeNodeNS(childNode, namespace, prefixMap, prefixIndex, requireWellFormed); } } catch (e_2_1) { e_2 = { error: e_2_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_2) throw e_2.error; } } return serializedDocument; }; /** * Produces an XML serialization of a comment node. * * @param node - node to serialize * @param requireWellFormed - whether to check conformance */ XMLSerializerImpl.prototype._serializeComment = function (node, requireWellFormed) { /** * If the require well-formed flag is set (its value is true), and node's * data contains characters that are not matched by the XML Char production * or contains "--" (two adjacent U+002D HYPHEN-MINUS characters) or that * ends with a "-" (U+002D HYPHEN-MINUS) character, then throw an exception; * the serialization of this node's data would not be well-formed. */ if (requireWellFormed && (!algorithm_1.xml_isLegalChar(node.data) || node.data.indexOf("--") !== -1 || node.data.endsWith("-"))) { throw new Error("Comment data contains invalid characters (well-formed required)."); } /** * Otherwise, return the concatenation of "". */ return ""; }; /** * Produces an XML serialization of a text node. * * @param node - node to serialize * @param requireWellFormed - whether to check conformance * @param level - current depth of the XML tree */ XMLSerializerImpl.prototype._serializeText = function (node, requireWellFormed) { /** * 1. If the require well-formed flag is set (its value is true), and * node's data contains characters that are not matched by the XML Char * production, then throw an exception; the serialization of this node's * data would not be well-formed. */ if (requireWellFormed && !algorithm_1.xml_isLegalChar(node.data)) { throw new Error("Text data contains invalid characters (well-formed required)."); } /** * 2. Let markup be the value of node's data. * 3. Replace any occurrences of "&" in markup by "&". * 4. Replace any occurrences of "<" in markup by "<". * 5. Replace any occurrences of ">" in markup by ">". * 6. Return the value of markup. */ var result = ""; for (var i = 0; i < node.data.length; i++) { var c = node.data[i]; if (c === "&") result += "&"; else if (c === "<") result += "<"; else if (c === ">") result += ">"; else result += c; } return result; }; /** * Produces an XML serialization of a document fragment node. * * @param node - node to serialize * @param namespace - context namespace * @param prefixMap - namespace prefix map * @param prefixIndex - generated namespace prefix index * @param requireWellFormed - whether to check conformance */ XMLSerializerImpl.prototype._serializeDocumentFragmentNS = function (node, namespace, prefixMap, prefixIndex, requireWellFormed) { var e_3, _a; /** * 1. Let markup the empty string. * 2. For each child child of node, in tree order, run the XML serialization * algorithm on the child given namespace, prefix map, a reference to prefix * index, and flag require well-formed. Concatenate the result to markup. * 3. Return the value of markup. */ var markup = ""; try { for (var _b = __values(node._children || node.childNodes), _c = _b.next(); !_c.done; _c = _b.next()) { var childNode = _c.value; markup += this._serializeNodeNS(childNode, namespace, prefixMap, prefixIndex, requireWellFormed); } } catch (e_3_1) { e_3 = { error: e_3_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_3) throw e_3.error; } } return markup; }; /** * Produces an XML serialization of a document type node. * * @param node - node to serialize * @param requireWellFormed - whether to check conformance */ XMLSerializerImpl.prototype._serializeDocumentType = function (node, requireWellFormed) { /** * 1. If the require well-formed flag is true and the node's publicId * attribute contains characters that are not matched by the XML PubidChar * production, then throw an exception; the serialization of this node * would not be a well-formed document type declaration. */ if (requireWellFormed && !algorithm_1.xml_isPubidChar(node.publicId)) { throw new Error("DocType public identifier does not match PubidChar construct (well-formed required)."); } /** * 2. If the require well-formed flag is true and the node's systemId * attribute contains characters that are not matched by the XML Char * production or that contains both a """ (U+0022 QUOTATION MARK) and a * "'" (U+0027 APOSTROPHE), then throw an exception; the serialization * of this node would not be a well-formed document type declaration. */ if (requireWellFormed && (!algorithm_1.xml_isLegalChar(node.systemId) || (node.systemId.indexOf('"') !== -1 && node.systemId.indexOf("'") !== -1))) { throw new Error("DocType system identifier contains invalid characters (well-formed required)."); } /** * 3. Let markup be an empty string. * 4. Append the string "" (U+003E GREATER-THAN SIGN) to markup. * 11. Return the value of markup. */ return node.publicId && node.systemId ? "" : node.publicId ? "" : node.systemId ? "" : ""; }; /** * Produces an XML serialization of a processing instruction node. * * @param node - node to serialize * @param requireWellFormed - whether to check conformance */ XMLSerializerImpl.prototype._serializeProcessingInstruction = function (node, requireWellFormed) { /** * 1. If the require well-formed flag is set (its value is true), and node's * target contains a ":" (U+003A COLON) character or is an ASCII * case-insensitive match for the string "xml", then throw an exception; * the serialization of this node's target would not be well-formed. */ if (requireWellFormed && (node.target.indexOf(":") !== -1 || (/^xml$/i).test(node.target))) { throw new Error("Processing instruction target contains invalid characters (well-formed required)."); } /** * 2. If the require well-formed flag is set (its value is true), and node's * data contains characters that are not matched by the XML Char production * or contains the string "?>" (U+003F QUESTION MARK, * U+003E GREATER-THAN SIGN), then throw an exception; the serialization of * this node's data would not be well-formed. */ if (requireWellFormed && (!algorithm_1.xml_isLegalChar(node.data) || node.data.indexOf("?>") !== -1)) { throw new Error("Processing instruction data contains invalid characters (well-formed required)."); } /** * 3. Let markup be the concatenation of the following, in the order listed: * 3.1. "" (U+003F QUESTION MARK, U+003E GREATER-THAN SIGN). * 4. Return the value of markup. */ return ""; }; /** * Produces an XML serialization of a CDATA node. * * @param node - node to serialize * @param requireWellFormed - whether to check conformance */ XMLSerializerImpl.prototype._serializeCData = function (node, requireWellFormed) { if (requireWellFormed && (node.data.indexOf("]]>") !== -1)) { throw new Error("CDATA contains invalid characters (well-formed required)."); } return ""; }; /** * Produces an XML serialization of the attributes of an element node. * * @param node - node to serialize * @param map - namespace prefix map * @param prefixIndex - generated namespace prefix index * @param localPrefixesMap - local prefixes map * @param ignoreNamespaceDefinitionAttribute - whether to ignore namespace * attributes * @param requireWellFormed - whether to check conformance */ XMLSerializerImpl.prototype._serializeAttributesNS = function (node, map, prefixIndex, localPrefixesMap, ignoreNamespaceDefinitionAttribute, requireWellFormed) { var e_4, _a; /** * 1. Let result be the empty string. * 2. Let localname set be a new empty namespace localname set. This * localname set will contain tuples of unique attribute namespaceURI and * localName pairs, and is populated as each attr is processed. This set is * used to [optionally] enforce the well-formed constraint that an element * cannot have two attributes with the same namespaceURI and localName. * This can occur when two otherwise identical attributes on the same * element differ only by their prefix values. */ var result = ""; var localNameSet = requireWellFormed ? new LocalNameSet_1.LocalNameSet() : undefined; try { /** * 3. Loop: For each attribute attr in element's attributes, in the order * they are specified in the element's attribute list: */ for (var _b = __values(node.attributes), _c = _b.next(); !_c.done; _c = _b.next()) { var attr = _c.value; // Optimize common case if (!ignoreNamespaceDefinitionAttribute && !requireWellFormed && attr.namespaceURI === null) { result += " " + attr.localName + "=\"" + this._serializeAttributeValue(attr.value, requireWellFormed) + "\""; continue; } /** * 3.1. If the require well-formed flag is set (its value is true), and the * localname set contains a tuple whose values match those of a new tuple * consisting of attr's namespaceURI attribute and localName attribute, * then throw an exception; the serialization of this attr would fail to * produce a well-formed element serialization. */ if (requireWellFormed && localNameSet && localNameSet.has(attr.namespaceURI, attr.localName)) { throw new Error("Element contains duplicate attributes (well-formed required)."); } /** * 3.2. Create a new tuple consisting of attr's namespaceURI attribute and * localName attribute, and add it to the localname set. * 3.3. Let attribute namespace be the value of attr's namespaceURI value. * 3.4. Let candidate prefix be null. */ if (requireWellFormed && localNameSet) localNameSet.set(attr.namespaceURI, attr.localName); var attributeNamespace = attr.namespaceURI; var candidatePrefix = null; /** 3.5. If attribute namespace is not null, then run these sub-steps: */ if (attributeNamespace !== null) { /** * 3.5.1. Let candidate prefix be the result of retrieving a preferred * prefix string from map given namespace attribute namespace with * preferred prefix being attr's prefix value. */ candidatePrefix = map.get(attr.prefix, attributeNamespace); /** * 3.5.2. If the value of attribute namespace is the XMLNS namespace, * then run these steps: */ if (attributeNamespace === infra_1.namespace.XMLNS) { /** * 3.5.2.1. If any of the following are true, then stop running these * steps and goto Loop to visit the next attribute: * - the attr's value is the XML namespace; * _Note:_ The XML namespace cannot be redeclared and survive * round-tripping (unless it defines the prefix "xml"). To avoid this * problem, this algorithm always prefixes elements in the XML * namespace with "xml" and drops any related definitions as seen * in the above condition. * - the attr's prefix is null and the ignore namespace definition * attribute flag is true (the Element's default namespace attribute * should be skipped); * - the attr's prefix is not null and either * * the attr's localName is not a key contained in the local * prefixes map, or * * the attr's localName is present in the local prefixes map but * the value of the key does not match attr's value * and furthermore that the attr's localName (as the prefix to find) * is found in the namespace prefix map given the namespace consisting * of the attr's value (the current namespace prefix definition was * exactly defined previously--on an ancestor element not the current * element whose attributes are being processed). */ if (attr.value === infra_1.namespace.XML || (attr.prefix === null && ignoreNamespaceDefinitionAttribute) || (attr.prefix !== null && (!(attr.localName in localPrefixesMap) || localPrefixesMap[attr.localName] !== attr.value) && map.has(attr.localName, attr.value))) continue; /** * 3.5.2.2. If the require well-formed flag is set (its value is true), * and the value of attr's value attribute matches the XMLNS * namespace, then throw an exception; the serialization of this * attribute would produce invalid XML because the XMLNS namespace * is reserved and cannot be applied as an element's namespace via * XML parsing. * * _Note:_ DOM APIs do allow creation of elements in the XMLNS * namespace but with strict qualifications. */ if (requireWellFormed && attr.value === infra_1.namespace.XMLNS) { throw new Error("XMLNS namespace is reserved (well-formed required)."); } /** * 3.5.2.3. If the require well-formed flag is set (its value is true), * and the value of attr's value attribute is the empty string, then * throw an exception; namespace prefix declarations cannot be used * to undeclare a namespace (use a default namespace declaration * instead). */ if (requireWellFormed && attr.value === '') { throw new Error("Namespace prefix declarations cannot be used to undeclare a namespace (well-formed required)."); } /** * 3.5.2.4. the attr's prefix matches the string "xmlns", then let * candidate prefix be the string "xmlns". */ if (attr.prefix === 'xmlns') candidatePrefix = 'xmlns'; /** * 3.5.3. Otherwise, the attribute namespace is not the XMLNS namespace. * Run these steps: * * _Note:_ The (candidatePrefix === null) check is not in the spec. * We deviate from the spec here. Otherwise a prefix is generated for * all attributes with namespaces. */ } else if (candidatePrefix === null) { if (attr.prefix !== null && (!map.hasPrefix(attr.prefix) || map.has(attr.prefix, attributeNamespace))) { /** * Check if we can use the attribute's own prefix. * We deviate from the spec here. * TODO: This is not an efficient way of searching for prefixes. * Follow developments to the spec. */ candidatePrefix = attr.prefix; } else { /** * 3.5.3.1. Let candidate prefix be the result of generating a prefix * providing map, attribute namespace, and prefix index as input. */ candidatePrefix = this._generatePrefix(attributeNamespace, map, prefixIndex); } /** * 3.5.3.2. Append the following to result, in the order listed: * 3.5.3.2.1. " " (U+0020 SPACE); * 3.5.3.2.2. The string "xmlns:"; * 3.5.3.2.3. The value of candidate prefix; * 3.5.3.2.4. "="" (U+003D EQUALS SIGN, U+0022 QUOTATION MARK); * 3.5.3.2.5. The result of serializing an attribute value given * attribute namespace and the require well-formed flag as input; * 3.5.3.2.6. """ (U+0022 QUOTATION MARK). */ result += " xmlns:" + candidatePrefix + "=\"" + this._serializeAttributeValue(attributeNamespace, requireWellFormed) + "\""; } } /** * 3.6. Append a " " (U+0020 SPACE) to result. * 3.7. If candidate prefix is not null, then append to result the * concatenation of candidate prefix with ":" (U+003A COLON). */ result += " "; if (candidatePrefix !== null) { result += candidatePrefix + ':'; } /** * 3.8. If the require well-formed flag is set (its value is true), and * this attr's localName attribute contains the character * ":" (U+003A COLON) or does not match the XML Name production or * equals "xmlns" and attribute namespace is null, then throw an * exception; the serialization of this attr would not be a * well-formed attribute. */ if (requireWellFormed && (attr.localName.indexOf(":") !== -1 || !algorithm_1.xml_isName(attr.localName) || (attr.localName === "xmlns" && attributeNamespace === null))) { throw new Error("Attribute local name contains invalid characters (well-formed required)."); } /** * 3.9. Append the following strings to result, in the order listed: * 3.9.1. The value of attr's localName; * 3.9.2. "="" (U+003D EQUALS SIGN, U+0022 QUOTATION MARK); * 3.9.3. The result of serializing an attribute value given attr's value * attribute and the require well-formed flag as input; * 3.9.4. """ (U+0022 QUOTATION MARK). */ result += attr.localName + "=\"" + this._serializeAttributeValue(attr.value, requireWellFormed) + "\""; } } catch (e_4_1) { e_4 = { error: e_4_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_4) throw e_4.error; } } /** * 4. Return the value of result. */ return result; }; /** * Records namespace information for the given element and returns the * default namespace attribute value. * * @param node - element node to process * @param map - namespace prefix map * @param localPrefixesMap - local prefixes map */ XMLSerializerImpl.prototype._recordNamespaceInformation = function (node, map, localPrefixesMap) { var e_5, _a; /** * 1. Let default namespace attr value be null. */ var defaultNamespaceAttrValue = null; try { /** * 2. Main: For each attribute attr in element's attributes, in the order * they are specified in the element's attribute list: */ for (var _b = __values(node.attributes), _c = _b.next(); !_c.done; _c = _b.next()) { var attr = _c.value; /** * _Note:_ The following conditional steps find namespace prefixes. Only * attributes in the XMLNS namespace are considered (e.g., attributes made * to look like namespace declarations via * setAttribute("xmlns:pretend-prefix", "pretend-namespace") are not * included). */ /** 2.1. Let attribute namespace be the value of attr's namespaceURI value. */ var attributeNamespace = attr.namespaceURI; /** 2.2. Let attribute prefix be the value of attr's prefix. */ var attributePrefix = attr.prefix; /** 2.3. If the attribute namespace is the XMLNS namespace, then: */ if (attributeNamespace === infra_1.namespace.XMLNS) { /** * 2.3.1. If attribute prefix is null, then attr is a default namespace * declaration. Set the default namespace attr value to attr's value and * stop running these steps, returning to Main to visit the next * attribute. */ if (attributePrefix === null) { defaultNamespaceAttrValue = attr.value; continue; /** * 2.3.2. Otherwise, the attribute prefix is not null and attr is a * namespace prefix definition. Run the following steps: */ } else { /** 2.3.2.1. Let prefix definition be the value of attr's localName. */ var prefixDefinition = attr.localName; /** 2.3.2.2. Let namespace definition be the value of attr's value. */ var namespaceDefinition = attr.value; /** * 2.3.2.3. If namespace definition is the XML namespace, then stop * running these steps, and return to Main to visit the next * attribute. * * _Note:_ XML namespace definitions in prefixes are completely * ignored (in order to avoid unnecessary work when there might be * prefix conflicts). XML namespaced elements are always handled * uniformly by prefixing (and overriding if necessary) the element's * localname with the reserved "xml" prefix. */ if (namespaceDefinition === infra_1.namespace.XML) { continue; } /** * 2.3.2.4. If namespace definition is the empty string (the * declarative form of having no namespace), then let namespace * definition be null instead. */ if (namespaceDefinition === '') { namespaceDefinition = null; } /** * 2.3.2.5. If prefix definition is found in map given the namespace * namespace definition, then stop running these steps, and return to * Main to visit the next attribute. * * _Note:_ This step avoids adding duplicate prefix definitions for * the same namespace in the map. This has the side-effect of avoiding * later serialization of duplicate namespace prefix declarations in * any descendant nodes. */ if (map.has(prefixDefinition, namespaceDefinition)) { continue; } /** * 2.3.2.6. Add the prefix prefix definition to map given namespace * namespace definition. */ map.set(prefixDefinition, namespaceDefinition); /** * 2.3.2.7. Add the value of prefix definition as a new key to the * local prefixes map, with the namespace definition as the key's * value replacing the value of null with the empty string if * applicable. */ localPrefixesMap[prefixDefinition] = namespaceDefinition || ''; } } } } catch (e_5_1) { e_5 = { error: e_5_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_5) throw e_5.error; } } /** * 3. Return the value of default namespace attr value. * * _Note:_ The empty string is a legitimate return value and is not * converted to null. */ return defaultNamespaceAttrValue; }; /** * Generates a new prefix for the given namespace. * * @param newNamespace - a namespace to generate prefix for * @param prefixMap - namespace prefix map * @param prefixIndex - generated namespace prefix index */ XMLSerializerImpl.prototype._generatePrefix = function (newNamespace, prefixMap, prefixIndex) { /** * 1. Let generated prefix be the concatenation of the string "ns" and the * current numerical value of prefix index. * 2. Let the value of prefix index be incremented by one. * 3. Add to map the generated prefix given the new namespace namespace. * 4. Return the value of generated prefix. */ var generatedPrefix = "ns" + prefixIndex.value; prefixIndex.value++; prefixMap.set(generatedPrefix, newNamespace); return generatedPrefix; }; /** * Produces an XML serialization of an attribute value. * * @param value - attribute value * @param requireWellFormed - whether to check conformance */ XMLSerializerImpl.prototype._serializeAttributeValue = function (value, requireWellFormed) { /** * From: https://w3c.github.io/DOM-Parsing/#dfn-serializing-an-attribute-value * * 1. If the require well-formed flag is set (its value is true), and * attribute value contains characters that are not matched by the XML Char * production, then throw an exception; the serialization of this attribute * value would fail to produce a well-formed element serialization. */ if (requireWellFormed && value !== null && !algorithm_1.xml_isLegalChar(value)) { throw new Error("Invalid characters in attribute value."); } /** * 2. If attribute value is null, then return the empty string. */ if (value === null) return ""; /** * 3. Otherwise, attribute value is a string. Return the value of attribute * value, first replacing any occurrences of the following: * - "&" with "&" * - """ with """ * - "<" with "<" * - ">" with ">" * NOTE * This matches behavior present in browsers, and goes above and beyond the * grammar requirement in the XML specification's AttValue production by * also replacing ">" characters. */ var result = ""; for (var i = 0; i < value.length; i++) { var c = value[i]; if (c === "\"") result += """; else if (c === "&") result += "&"; else if (c === "<") result += "<"; else if (c === ">") result += ">"; else result += c; } return result; }; /** * Produces an XML serialization of an element node. * * @param node - node to serialize * @param requireWellFormed - whether to check conformance */ XMLSerializerImpl.prototype._serializeElement = function (node, requireWellFormed) { var e_6, _a; /** * From: https://w3c.github.io/DOM-Parsing/#xml-serializing-an-element-node * * 1. If the require well-formed flag is set (its value is true), and this * node's localName attribute contains the character ":" (U+003A COLON) or * does not match the XML Name production, then throw an exception; the * serialization of this node would not be a well-formed element. */ if (requireWellFormed && (node.localName.indexOf(":") !== -1 || !algorithm_1.xml_isName(node.localName))) { throw new Error("Node local name contains invalid characters (well-formed required)."); } /** * 2. Let markup be the string "<" (U+003C LESS-THAN SIGN). * 3. Let qualified name be an empty string. * 4. Let skip end tag be a boolean flag with value false. * 5. Let ignore namespace definition attribute be a boolean flag with value * false. * 6. Given prefix map, copy a namespace prefix map and let map be the * result. * 7. Let local prefixes map be an empty map. The map has unique Node prefix * strings as its keys, with corresponding namespaceURI Node values as the * map's key values (in this map, the null namespace is represented by the * empty string). * * _Note:_ This map is local to each element. It is used to ensure there * are no conflicting prefixes should a new namespace prefix attribute need * to be generated. It is also used to enable skipping of duplicate prefix * definitions when writing an element's attributes: the map allows the * algorithm to distinguish between a prefix in the namespace prefix map * that might be locally-defined (to the current Element) and one that is * not. * 8. Let local default namespace be the result of recording the namespace * information for node given map and local prefixes map. * * _Note:_ The above step will update map with any found namespace prefix * definitions, add the found prefix definitions to the local prefixes map * and return a local default namespace value defined by a default namespace * attribute if one exists. Otherwise it returns null. * 9. Let inherited ns be a copy of namespace. * 10. Let ns be the value of node's namespaceURI attribute. */ var skipEndTag = false; /** 11. If inherited ns is equal to ns, then: */ /** * 11.1. If local default namespace is not null, then set ignore * namespace definition attribute to true. * 11.2. If ns is the XML namespace, then append to qualified name the * concatenation of the string "xml:" and the value of node's localName. * 11.3. Otherwise, append to qualified name the value of node's * localName. The node's prefix if it exists, is dropped. */ var qualifiedName = node.localName; /** 11.4. Append the value of qualified name to markup. */ var markup = "<" + qualifiedName; /** * 13. Append to markup the result of the XML serialization of node's * attributes given map, prefix index, local prefixes map, ignore namespace * definition attribute flag, and require well-formed flag. */ markup += this._serializeAttributes(node, requireWellFormed); /** * 14. If ns is the HTML namespace, and the node's list of children is * empty, and the node's localName matches any one of the following void * elements: "area", "base", "basefont", "bgsound", "br", "col", "embed", * "frame", "hr", "img", "input", "keygen", "link", "menuitem", "meta", * "param", "source", "track", "wbr"; then append the following to markup, * in the order listed: * 14.1. " " (U+0020 SPACE); * 14.2. "/" (U+002F SOLIDUS). * and set the skip end tag flag to true. * 15. If ns is not the HTML namespace, and the node's list of children is * empty, then append "/" (U+002F SOLIDUS) to markup and set the skip end * tag flag to true. * 16. Append ">" (U+003E GREATER-THAN SIGN) to markup. */ if (node._children.size === 0) { markup += "/"; skipEndTag = true; } markup += ">"; /** * 17. If the value of skip end tag is true, then return the value of markup * and skip the remaining steps. The node is a leaf-node. */ if (skipEndTag) return markup; try { /** * 18. If ns is the HTML namespace, and the node's localName matches the * string "template", then this is a template element. Append to markup the * result of XML serializing a DocumentFragment node given the template * element's template contents (a DocumentFragment), providing inherited * ns, map, prefix index, and the require well-formed flag. * * _Note:_ This allows template content to round-trip, given the rules for * parsing XHTML documents. * * 19. Otherwise, append to markup the result of running the XML * serialization algorithm on each of node's children, in tree order, * providing inherited ns, map, prefix index, and the require well-formed * flag. */ for (var _b = __values(node._children), _c = _b.next(); !_c.done; _c = _b.next()) { var childNode = _c.value; markup += this._serializeNode(childNode, requireWellFormed); } } catch (e_6_1) { e_6 = { error: e_6_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_6) throw e_6.error; } } /** * 20. Append the following to markup, in the order listed: * 20.1. "" (U+003E GREATER-THAN SIGN). */ markup += ""; /** * 21. Return the value of markup. */ return markup; }; /** * Produces an XML serialization of a document node. * * @param node - node to serialize * @param requireWellFormed - whether to check conformance */ XMLSerializerImpl.prototype._serializeDocument = function (node, requireWellFormed) { var e_7, _a; /** * If the require well-formed flag is set (its value is true), and this node * has no documentElement (the documentElement attribute's value is null), * then throw an exception; the serialization of this node would not be a * well-formed document. */ if (requireWellFormed && node.documentElement === null) { throw new Error("Missing document element (well-formed required)."); } /** * Otherwise, run the following steps: * 1. Let serialized document be an empty string. * 2. For each child child of node, in tree order, run the XML * serialization algorithm on the child passing along the provided * arguments, and append the result to serialized document. * * _Note:_ This will serialize any number of ProcessingInstruction and * Comment nodes both before and after the Document's documentElement node, * including at most one DocumentType node. (Text nodes are not allowed as * children of the Document.) * * 3. Return the value of serialized document. */ var serializedDocument = ""; try { for (var _b = __values(node._children), _c = _b.next(); !_c.done; _c = _b.next()) { var childNode = _c.value; serializedDocument += this._serializeNode(childNode, requireWellFormed); } } catch (e_7_1) { e_7 = { error: e_7_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_7) throw e_7.error; } } return serializedDocument; }; /** * Produces an XML serialization of a document fragment node. * * @param node - node to serialize * @param requireWellFormed - whether to check conformance */ XMLSerializerImpl.prototype._serializeDocumentFragment = function (node, requireWellFormed) { var e_8, _a; /** * 1. Let markup the empty string. * 2. For each child child of node, in tree order, run the XML serialization * algorithm on the child given namespace, prefix map, a reference to prefix * index, and flag require well-formed. Concatenate the result to markup. * 3. Return the value of markup. */ var markup = ""; try { for (var _b = __values(node._children), _c = _b.next(); !_c.done; _c = _b.next()) { var childNode = _c.value; markup += this._serializeNode(childNode, requireWellFormed); } } catch (e_8_1) { e_8 = { error: e_8_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_8) throw e_8.error; } } return markup; }; /** * Produces an XML serialization of the attributes of an element node. * * @param node - node to serialize * @param requireWellFormed - whether to check conformance */ XMLSerializerImpl.prototype._serializeAttributes = function (node, requireWellFormed) { var e_9, _a; /** * 1. Let result be the empty string. * 2. Let localname set be a new empty namespace localname set. This * localname set will contain tuples of unique attribute namespaceURI and * localName pairs, and is populated as each attr is processed. This set is * used to [optionally] enforce the well-formed constraint that an element * cannot have two attributes with the same namespaceURI and localName. * This can occur when two otherwise identical attributes on the same * element differ only by their prefix values. */ var result = ""; var localNameSet = requireWellFormed ? {} : undefined; try { /** * 3. Loop: For each attribute attr in element's attributes, in the order * they are specified in the element's attribute list: */ for (var _b = __values(node.attributes), _c = _b.next(); !_c.done; _c = _b.next()) { var attr = _c.value; /** * 3.1. If the require well-formed flag is set (its value is true), and the * localname set contains a tuple whose values match those of a new tuple * consisting of attr's namespaceURI attribute and localName attribute, * then throw an exception; the serialization of this attr would fail to * produce a well-formed element serialization. */ if (requireWellFormed && localNameSet && (attr.localName in localNameSet)) { throw new Error("Element contains duplicate attributes (well-formed required)."); } /** * 3.2. Create a new tuple consisting of attr's namespaceURI attribute and * localName attribute, and add it to the localname set. * 3.3. Let attribute namespace be the value of attr's namespaceURI value. * 3.4. Let candidate prefix be null. */ if (requireWellFormed && localNameSet) localNameSet[attr.localName] = true; /** 3.5. If attribute namespace is not null, then run these sub-steps: */ /** * 3.6. Append a " " (U+0020 SPACE) to result. * 3.7. If candidate prefix is not null, then append to result the * concatenation of candidate prefix with ":" (U+003A COLON). */ /** * 3.8. If the require well-formed flag is set (its value is true), and * this attr's localName attribute contains the character * ":" (U+003A COLON) or does not match the XML Name production or * equals "xmlns" and attribute namespace is null, then throw an * exception; the serialization of this attr would not be a * well-formed attribute. */ if (requireWellFormed && (attr.localName.indexOf(":") !== -1 || !algorithm_1.xml_isName(attr.localName))) { throw new Error("Attribute local name contains invalid characters (well-formed required)."); } /** * 3.9. Append the following strings to result, in the order listed: * 3.9.1. The value of attr's localName; * 3.9.2. "="" (U+003D EQUALS SIGN, U+0022 QUOTATION MARK); * 3.9.3. The result of serializing an attribute value given attr's value * attribute and the require well-formed flag as input; * 3.9.4. """ (U+0022 QUOTATION MARK). */ result += " " + attr.localName + "=\"" + this._serializeAttributeValue(attr.value, requireWellFormed) + "\""; } } catch (e_9_1) { e_9 = { error: e_9_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_9) throw e_9.error; } } /** * 4. Return the value of result. */ return result; }; XMLSerializerImpl._VoidElementNames = new Set(['area', 'base', 'basefont', 'bgsound', 'br', 'col', 'embed', 'frame', 'hr', 'img', 'input', 'keygen', 'link', 'menuitem', 'meta', 'param', 'source', 'track', 'wbr']); return XMLSerializerImpl; }()); exports.XMLSerializerImpl = XMLSerializerImpl; //# sourceMappingURL=XMLSerializerImpl.js.map /***/ }), /***/ 87119: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); // Export classes var XMLSerializerImpl_1 = __nccwpck_require__(85039); exports.XMLSerializer = XMLSerializerImpl_1.XMLSerializerImpl; //# sourceMappingURL=index.js.map /***/ }), /***/ 75483: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var Guard_1 = __nccwpck_require__(66862); /** * Contains type casts for DOM objects. */ var Cast = /** @class */ (function () { function Cast() { } /** * Casts the given object to a `Node`. * * @param a - the object to cast */ Cast.asNode = function (a) { if (Guard_1.Guard.isNode(a)) { return a; } else { throw new Error("Invalid object. Node expected."); } }; return Cast; }()); exports.Cast = Cast; //# sourceMappingURL=Cast.js.map /***/ }), /***/ 88392: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var EmptySet = /** @class */ (function () { function EmptySet() { } Object.defineProperty(EmptySet.prototype, "size", { get: function () { return 0; }, enumerable: true, configurable: true }); EmptySet.prototype.add = function (value) { throw new Error("Cannot add to an empty set."); }; EmptySet.prototype.clear = function () { // no-op }; EmptySet.prototype.delete = function (value) { return false; }; EmptySet.prototype.forEach = function (callbackfn, thisArg) { // no-op }; EmptySet.prototype.has = function (value) { return false; }; EmptySet.prototype[Symbol.iterator] = function () { return new EmptySetIterator(); }; EmptySet.prototype.entries = function () { return new EmptySetIterator(); }; EmptySet.prototype.keys = function () { return new EmptySetIterator(); }; EmptySet.prototype.values = function () { return new EmptySetIterator(); }; Object.defineProperty(EmptySet.prototype, Symbol.toStringTag, { get: function () { return "EmptySet"; }, enumerable: true, configurable: true }); return EmptySet; }()); exports.EmptySet = EmptySet; var EmptySetIterator = /** @class */ (function () { function EmptySetIterator() { } EmptySetIterator.prototype[Symbol.iterator] = function () { return this; }; EmptySetIterator.prototype.next = function () { return { done: true, value: null }; }; return EmptySetIterator; }()); //# sourceMappingURL=EmptySet.js.map /***/ }), /***/ 66862: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var interfaces_1 = __nccwpck_require__(27305); /** * Contains user-defined type guards for DOM objects. */ var Guard = /** @class */ (function () { function Guard() { } /** * Determines if the given object is a `Node`. * * @param a - the object to check */ Guard.isNode = function (a) { return (!!a && a._nodeType !== undefined); }; /** * Determines if the given object is a `Document`. * * @param a - the object to check */ Guard.isDocumentNode = function (a) { return (Guard.isNode(a) && a._nodeType === interfaces_1.NodeType.Document); }; /** * Determines if the given object is a `DocumentType`. * * @param a - the object to check */ Guard.isDocumentTypeNode = function (a) { return (Guard.isNode(a) && a._nodeType === interfaces_1.NodeType.DocumentType); }; /** * Determines if the given object is a `DocumentFragment`. * * @param a - the object to check */ Guard.isDocumentFragmentNode = function (a) { return (Guard.isNode(a) && a._nodeType === interfaces_1.NodeType.DocumentFragment); }; /** * Determines if the given object is a `Attr`. * * @param a - the object to check */ Guard.isAttrNode = function (a) { return (Guard.isNode(a) && a._nodeType === interfaces_1.NodeType.Attribute); }; /** * Determines if the given node is a `CharacterData` node. * * @param a - the object to check */ Guard.isCharacterDataNode = function (a) { if (!Guard.isNode(a)) return false; var type = a._nodeType; return (type === interfaces_1.NodeType.Text || type === interfaces_1.NodeType.ProcessingInstruction || type === interfaces_1.NodeType.Comment || type === interfaces_1.NodeType.CData); }; /** * Determines if the given object is a `Text` or a `CDATASection`. * * @param a - the object to check */ Guard.isTextNode = function (a) { return (Guard.isNode(a) && (a._nodeType === interfaces_1.NodeType.Text || a._nodeType === interfaces_1.NodeType.CData)); }; /** * Determines if the given object is a `Text`. * * @param a - the object to check */ Guard.isExclusiveTextNode = function (a) { return (Guard.isNode(a) && a._nodeType === interfaces_1.NodeType.Text); }; /** * Determines if the given object is a `CDATASection`. * * @param a - the object to check */ Guard.isCDATASectionNode = function (a) { return (Guard.isNode(a) && a._nodeType === interfaces_1.NodeType.CData); }; /** * Determines if the given object is a `Comment`. * * @param a - the object to check */ Guard.isCommentNode = function (a) { return (Guard.isNode(a) && a._nodeType === interfaces_1.NodeType.Comment); }; /** * Determines if the given object is a `ProcessingInstruction`. * * @param a - the object to check */ Guard.isProcessingInstructionNode = function (a) { return (Guard.isNode(a) && a._nodeType === interfaces_1.NodeType.ProcessingInstruction); }; /** * Determines if the given object is an `Element`. * * @param a - the object to check */ Guard.isElementNode = function (a) { return (Guard.isNode(a) && a._nodeType === interfaces_1.NodeType.Element); }; /** * Determines if the given object is a custom `Element`. * * @param a - the object to check */ Guard.isCustomElementNode = function (a) { return (Guard.isElementNode(a) && a._customElementState === "custom"); }; /** * Determines if the given object is a `ShadowRoot`. * * @param a - the object to check */ Guard.isShadowRoot = function (a) { return (!!a && a.host !== undefined); }; /** * Determines if the given object is a `MouseEvent`. * * @param a - the object to check */ Guard.isMouseEvent = function (a) { return (!!a && a.screenX !== undefined && a.screenY != undefined); }; /** * Determines if the given object is a slotable. * * Element and Text nodes are slotables. A slotable has an associated name * (a string). * * @param a - the object to check */ Guard.isSlotable = function (a) { return (!!a && a._name !== undefined && a._assignedSlot !== undefined && (Guard.isTextNode(a) || Guard.isElementNode(a))); }; /** * Determines if the given object is a slot. * * @param a - the object to check */ Guard.isSlot = function (a) { return (!!a && a._name !== undefined && a._assignedNodes !== undefined && Guard.isElementNode(a)); }; /** * Determines if the given object is a `Window`. * * @param a - the object to check */ Guard.isWindow = function (a) { return (!!a && a.navigator !== undefined); }; /** * Determines if the given object is an `EventListener`. * * @param a - the object to check */ Guard.isEventListener = function (a) { return (!!a && a.handleEvent !== undefined); }; /** * Determines if the given object is a `RegisteredObserver`. * * @param a - the object to check */ Guard.isRegisteredObserver = function (a) { return (!!a && a.observer !== undefined && a.options !== undefined); }; /** * Determines if the given object is a `TransientRegisteredObserver`. * * @param a - the object to check */ Guard.isTransientRegisteredObserver = function (a) { return (!!a && a.source !== undefined && Guard.isRegisteredObserver(a)); }; return Guard; }()); exports.Guard = Guard; //# sourceMappingURL=Guard.js.map /***/ }), /***/ 65282: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var Cast_1 = __nccwpck_require__(75483); exports.Cast = Cast_1.Cast; var Guard_1 = __nccwpck_require__(66862); exports.Guard = Guard_1.Guard; var EmptySet_1 = __nccwpck_require__(88392); exports.EmptySet = EmptySet_1.EmptySet; //# sourceMappingURL=index.js.map /***/ }), /***/ 28585: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); var CodePoints_1 = __nccwpck_require__(28548); /** * Base-64 encodes the given string. * * @param input - a string */ function forgivingBase64Encode(input) { /** * To forgiving-base64 encode given a byte sequence data, apply the base64 * algorithm defined in section 4 of RFC 4648 to data and return the result. * [RFC4648] */ return Buffer.from(input).toString('base64'); } exports.forgivingBase64Encode = forgivingBase64Encode; /** * Decodes a base-64 string. * * @param input - a string */ function forgivingBase64Decode(input) { if (input === "") return ""; /** * 1. Remove all ASCII whitespace from data. */ input = input.replace(CodePoints_1.ASCIIWhiteSpace, ''); /** * 2. If data’s length divides by 4 leaving no remainder, then: * 2.1. If data ends with one or two U+003D (=) code points, then remove them from data. */ if (input.length % 4 === 0) { if (input.endsWith("==")) { input = input.substr(0, input.length - 2); } else if (input.endsWith("=")) { input = input.substr(0, input.length - 1); } } /** * 3. If data’s length divides by 4 leaving a remainder of 1, then return failure. */ if (input.length % 4 === 1) return null; /** * 4. If data contains a code point that is not one of * - U+002B (+) * - U+002F (/) * - ASCII alphanumeric * then return failure. */ if (!/[0-9A-Za-z+/]/.test(input)) return null; /** * 5. Let output be an empty byte sequence. * 6. Let buffer be an empty buffer that can have bits appended to it. * 7. Let position be a position variable for data, initially pointing at the * start of data. * 8. While position does not point past the end of data: * 8.1. Find the code point pointed to by position in the second column of * Table 1: The Base 64 Alphabet of RFC 4648. Let n be the number given in the * first cell of the same row. [RFC4648] * 8.2. Append the six bits corresponding to n, most significant bit first, * to buffer. * 8.3. If buffer has accumulated 24 bits, interpret them as three 8-bit * big-endian numbers. Append three bytes with values equal to those numbers * to output, in the same order, and then empty buffer. * 8.4. Advance position by 1. * 9. If buffer is not empty, it contains either 12 or 18 bits. If it contains * 12 bits, then discard the last four and interpret the remaining eight as an * 8-bit big-endian number. If it contains 18 bits, then discard the last two * and interpret the remaining 16 as two 8-bit big-endian numbers. Append the * one or two bytes with values equal to those one or two numbers to output, * in the same order. * 10. Return output. */ return Buffer.from(input, 'base64').toString('utf8'); } exports.forgivingBase64Decode = forgivingBase64Decode; //# sourceMappingURL=Base64.js.map /***/ }), /***/ 42460: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); /** * Determines if the given number is an ASCII byte. * * @param byte - a byte */ function isASCIIByte(byte) { /** * An ASCII byte is a byte in the range 0x00 (NUL) to 0x7F (DEL), inclusive. */ return byte >= 0x00 && byte <= 0x7F; } exports.isASCIIByte = isASCIIByte; //# sourceMappingURL=Byte.js.map /***/ }), /***/ 71627: /***/ (function(__unused_webpack_module, exports) { "use strict"; var __read = (this && this.__read) || function (o, n) { var m = typeof Symbol === "function" && o[Symbol.iterator]; if (!m) return o; var i = m.call(o), r, ar = [], e; try { while ((n === void 0 || n-- > 0) && !(r = i.next()).done) ar.push(r.value); } catch (error) { e = { error: error }; } finally { try { if (r && !r.done && (m = i["return"])) m.call(i); } finally { if (e) throw e.error; } } return ar; }; var __spread = (this && this.__spread) || function () { for (var ar = [], i = 0; i < arguments.length; i++) ar = ar.concat(__read(arguments[i])); return ar; }; Object.defineProperty(exports, "__esModule", ({ value: true })); /** * Returns the count of bytes in a sequence. * * @param list - a byte sequence */ function length(list) { /** * A byte sequence’s length is the number of bytes it contains. */ return list.length; } exports.length = length; /** * Converts each byte to lowercase. * * @param list - a byte sequence */ function byteLowercase(list) { /** * To byte-lowercase a byte sequence, increase each byte it contains, in the * range 0x41 (A) to 0x5A (Z), inclusive, by 0x20. */ for (var i = 0; i < list.length; i++) { var c = list[i]; if (c >= 0x41 && c <= 0x5A) { list[i] = c + 0x20; } } } exports.byteLowercase = byteLowercase; /** * Converts each byte to uppercase. * * @param list - a byte sequence */ function byteUppercase(list) { /** * To byte-uppercase a byte sequence, subtract each byte it contains, in the * range 0x61 (a) to 0x7A (z), inclusive, by 0x20. */ for (var i = 0; i < list.length; i++) { var c = list[i]; if (c >= 0x61 && c <= 0x7A) { list[i] = c - 0x20; } } } exports.byteUppercase = byteUppercase; /** * Compares two byte sequences. * * @param listA - a byte sequence * @param listB - a byte sequence */ function byteCaseInsensitiveMatch(listA, listB) { /** * A byte sequence A is a byte-case-insensitive match for a byte sequence B, * if the byte-lowercase of A is the byte-lowercase of B. */ if (listA.length !== listB.length) return false; for (var i = 0; i < listA.length; i++) { var a = listA[i]; var b = listB[i]; if (a >= 0x41 && a <= 0x5A) a += 0x20; if (b >= 0x41 && b <= 0x5A) b += 0x20; if (a !== b) return false; } return true; } exports.byteCaseInsensitiveMatch = byteCaseInsensitiveMatch; /** * Determines if `listA` starts with `listB`. * * @param listA - a byte sequence * @param listB - a byte sequence */ function startsWith(listA, listB) { /** * 1. Let i be 0. * 2. While true: * 2.1. Let aByte be the ith byte of a if i is less than a’s length; otherwise null. * 2.3. Let bByte be the ith byte of b if i is less than b’s length; otherwise null. * 2.4. If bByte is null, then return true. * 2.5. Return false if aByte is not bByte. * 2.6. Set i to i + 1. */ var i = 0; while (true) { if (i >= listA.length) return false; if (i >= listB.length) return true; if (listA[i] !== listB[i]) return false; i++; } } exports.startsWith = startsWith; /** * Determines if `listA` is less than `listB`. * * @param listA - a byte sequence * @param listB - a byte sequence */ function byteLessThan(listA, listB) { /** * 1. If b starts with a, then return false. * 2. If a starts with b, then return true. * 3. Let n be the smallest index such that the nth byte of a is different * from the nth byte of b. (There has to be such an index, since neither byte * sequence starts with the other.) * 4. If the nth byte of a is less than the nth byte of b, then return true. * 5. Return false. */ var i = 0; while (true) { if (i >= listA.length) return false; if (i >= listB.length) return true; var a = listA[i]; var b = listB[i]; if (a < b) return true; else if (a > b) return false; i++; } } exports.byteLessThan = byteLessThan; /** * Decodes a byte sequence into a string. * * @param list - a byte sequence */ function isomorphicDecode(list) { /** * To isomorphic decode a byte sequence input, return a string whose length is * equal to input’s length and whose code points have the same values as * input’s bytes, in the same order. */ return String.fromCodePoint.apply(String, __spread(list)); } exports.isomorphicDecode = isomorphicDecode; //# sourceMappingURL=ByteSequence.js.map /***/ }), /***/ 28548: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); /** * A surrogate is a code point that is in the range U+D800 to U+DFFF, inclusive. */ exports.Surrogate = /[\uD800-\uDFFF]/; /** * A scalar value is a code point that is not a surrogate. */ exports.ScalarValue = /[\uD800-\uDFFF]/; /** * A noncharacter is a code point that is in the range U+FDD0 to U+FDEF, * inclusive, or U+FFFE, U+FFFF, U+1FFFE, U+1FFFF, U+2FFFE, U+2FFFF, U+3FFFE, * U+3FFFF, U+4FFFE, U+4FFFF, U+5FFFE, U+5FFFF, U+6FFFE, U+6FFFF, U+7FFFE, * U+7FFFF, U+8FFFE, U+8FFFF, U+9FFFE, U+9FFFF, U+AFFFE, U+AFFFF, U+BFFFE, * U+BFFFF, U+CFFFE, U+CFFFF, U+DFFFE, U+DFFFF, U+EFFFE, U+EFFFF, U+FFFFE, * U+FFFFF, U+10FFFE, or U+10FFFF. */ exports.NonCharacter = /[\uFDD0-\uFDEF\uFFFE\uFFFF]|[\uD83F\uD87F\uD8BF\uD8FF\uD93F\uD97F\uD9BF\uD9FF\uDA3F\uDA7F\uDABF\uDAFF\uDB3F\uDB7F\uDBBF\uDBFF][\uDFFE\uDFFF]/; /** * An ASCII code point is a code point in the range U+0000 NULL to U+007F * DELETE, inclusive. */ exports.ASCIICodePoint = /[\u0000-\u007F]/; /** * An ASCII tab or newline is U+0009 TAB, U+000A LF, or U+000D CR. */ exports.ASCIITabOrNewLine = /[\t\n\r]/; /** * ASCII whitespace is U+0009 TAB, U+000A LF, U+000C FF, U+000D CR, or * U+0020 SPACE. */ exports.ASCIIWhiteSpace = /[\t\n\f\r ]/; /** * A C0 control is a code point in the range U+0000 NULL to U+001F * INFORMATION SEPARATOR ONE, inclusive. */ exports.C0Control = /[\u0000-\u001F]/; /** * A C0 control or space is a C0 control or U+0020 SPACE. */ exports.C0ControlOrSpace = /[\u0000-\u001F ]/; /** * A control is a C0 control or a code point in the range U+007F DELETE to * U+009F APPLICATION PROGRAM COMMAND, inclusive. */ exports.Control = /[\u0000-\u001F\u007F-\u009F]/; /** * An ASCII digit is a code point in the range U+0030 (0) to U+0039 (9), * inclusive. */ exports.ASCIIDigit = /[0-9]/; /** * An ASCII upper hex digit is an ASCII digit or a code point in the range * U+0041 (A) to U+0046 (F), inclusive. */ exports.ASCIIUpperHexDigit = /[0-9A-F]/; /** * An ASCII lower hex digit is an ASCII digit or a code point in the range * U+0061 (a) to U+0066 (f), inclusive. */ exports.ASCIILowerHexDigit = /[0-9a-f]/; /** * An ASCII hex digit is an ASCII upper hex digit or ASCII lower hex digit. */ exports.ASCIIHexDigit = /[0-9A-Fa-f]/; /** * An ASCII upper alpha is a code point in the range U+0041 (A) to U+005A (Z), * inclusive. */ exports.ASCIIUpperAlpha = /[A-Z]/; /** * An ASCII lower alpha is a code point in the range U+0061 (a) to U+007A (z), * inclusive. */ exports.ASCIILowerAlpha = /[a-z]/; /** * An ASCII alpha is an ASCII upper alpha or ASCII lower alpha. */ exports.ASCIIAlpha = /[A-Za-z]/; /** * An ASCII alphanumeric is an ASCII digit or ASCII alpha. */ exports.ASCIIAlphanumeric = /[0-9A-Za-z]/; //# sourceMappingURL=CodePoints.js.map /***/ }), /***/ 99387: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; Object.defineProperty(exports, "__esModule", ({ value: true })); var util_1 = __nccwpck_require__(76195); /** * Parses the given byte sequence representing a JSON string into an object. * * @param bytes - a byte sequence */ function parseJSONFromBytes(bytes) { /** * 1. Let jsonText be the result of running UTF-8 decode on bytes. [ENCODING] * 2. Return ? Call(%JSONParse%, undefined, « jsonText »). */ var jsonText = util_1.utf8Decode(bytes); return JSON.parse.call(undefined, jsonText); } exports.parseJSONFromBytes = parseJSONFromBytes; /** * Serialize the given JavaScript value into a byte sequence. * * @param value - a JavaScript value */ function serializeJSONToBytes(value) { /** * 1. Let jsonString be ? Call(%JSONStringify%, undefined, « value »). * 2. Return the result of running UTF-8 encode on jsonString. [ENCODING] */ var jsonString = JSON.stringify.call(undefined, value); return util_1.utf8Encode(jsonString); } exports.serializeJSONToBytes = serializeJSONToBytes; /** * Parses the given JSON string into a Realm-independent JavaScript value. * * @param jsonText - a JSON string */ function parseJSONIntoInfraValues(jsonText) { /** * 1. Let jsValue be ? Call(%JSONParse%, undefined, « jsonText »). * 2. Return the result of converting a JSON-derived JavaScript value to an * Infra value, given jsValue. */ var jsValue = JSON.parse.call(undefined, jsonText); return convertAJSONDerivedJavaScriptValueToAnInfraValue(jsValue); } exports.parseJSONIntoInfraValues = parseJSONIntoInfraValues; /** * Parses the value into a Realm-independent JavaScript value. * * @param jsValue - a JavaScript value */ function convertAJSONDerivedJavaScriptValueToAnInfraValue(jsValue) { var e_1, _a; /** * 1. If Type(jsValue) is Null, String, or Number, then return jsValue. */ if (jsValue === null || util_1.isString(jsValue) || util_1.isNumber(jsValue)) return jsValue; /** * 2. If IsArray(jsValue) is true, then: * 2.1. Let result be an empty list. * 2.2. Let length be ! ToLength(! Get(jsValue, "length")). * 2.3. For each index of the range 0 to length − 1, inclusive: * 2.3.1. Let indexName be ! ToString(index). * 2.3.2. Let jsValueAtIndex be ! Get(jsValue, indexName). * 2.3.3. Let infraValueAtIndex be the result of converting a JSON-derived * JavaScript value to an Infra value, given jsValueAtIndex. * 2.3.4. Append infraValueAtIndex to result. * 2.8. Return result. */ if (util_1.isArray(jsValue)) { var result = new Array(); try { for (var jsValue_1 = __values(jsValue), jsValue_1_1 = jsValue_1.next(); !jsValue_1_1.done; jsValue_1_1 = jsValue_1.next()) { var jsValueAtIndex = jsValue_1_1.value; result.push(convertAJSONDerivedJavaScriptValueToAnInfraValue(jsValueAtIndex)); } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (jsValue_1_1 && !jsValue_1_1.done && (_a = jsValue_1.return)) _a.call(jsValue_1); } finally { if (e_1) throw e_1.error; } } return result; } else if (util_1.isObject(jsValue)) { /** * 3. Let result be an empty ordered map. * 4. For each key of ! jsValue.[[OwnPropertyKeys]](): * 4.1. Let jsValueAtKey be ! Get(jsValue, key). * 4.2. Let infraValueAtKey be the result of converting a JSON-derived * JavaScript value to an Infra value, given jsValueAtKey. * 4.3. Set result[key] to infraValueAtKey. * 5. Return result. */ var result = new Map(); for (var key in jsValue) { /* istanbul ignore else */ if (jsValue.hasOwnProperty(key)) { var jsValueAtKey = jsValue[key]; result.set(key, convertAJSONDerivedJavaScriptValueToAnInfraValue(jsValueAtKey)); } } return result; } /* istanbul ignore next */ return jsValue; } exports.convertAJSONDerivedJavaScriptValueToAnInfraValue = convertAJSONDerivedJavaScriptValueToAnInfraValue; //# sourceMappingURL=JSON.js.map /***/ }), /***/ 20340: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __generator = (this && this.__generator) || function (thisArg, body) { var _ = { label: 0, sent: function() { if (t[0] & 1) throw t[1]; return t[1]; }, trys: [], ops: [] }, f, y, t, g; return g = { next: verb(0), "throw": verb(1), "return": verb(2) }, typeof Symbol === "function" && (g[Symbol.iterator] = function() { return this; }), g; function verb(n) { return function (v) { return step([n, v]); }; } function step(op) { if (f) throw new TypeError("Generator is already executing."); while (_) try { if (f = 1, y && (t = op[0] & 2 ? y["return"] : op[0] ? y["throw"] || ((t = y["return"]) && t.call(y), 0) : y.next) && !(t = t.call(y, op[1])).done) return t; if (y = 0, t) op = [op[0] & 2, t.value]; switch (op[0]) { case 0: case 1: t = op; break; case 4: _.label++; return { value: op[1], done: false }; case 5: _.label++; y = op[1]; op = [0]; continue; case 7: op = _.ops.pop(); _.trys.pop(); continue; default: if (!(t = _.trys, t = t.length > 0 && t[t.length - 1]) && (op[0] === 6 || op[0] === 2)) { _ = 0; continue; } if (op[0] === 3 && (!t || (op[1] > t[0] && op[1] < t[3]))) { _.label = op[1]; break; } if (op[0] === 6 && _.label < t[1]) { _.label = t[1]; t = op; break; } if (t && _.label < t[2]) { _.label = t[2]; _.ops.push(op); break; } if (t[2]) _.ops.pop(); _.trys.pop(); continue; } op = body.call(thisArg, _); } catch (e) { op = [6, e]; y = 0; } finally { f = t = 0; } if (op[0] & 5) throw op[1]; return { value: op[0] ? op[1] : void 0, done: true }; } }; var __read = (this && this.__read) || function (o, n) { var m = typeof Symbol === "function" && o[Symbol.iterator]; if (!m) return o; var i = m.call(o), r, ar = [], e; try { while ((n === void 0 || n-- > 0) && !(r = i.next()).done) ar.push(r.value); } catch (error) { e = { error: error }; } finally { try { if (r && !r.done && (m = i["return"])) m.call(i); } finally { if (e) throw e.error; } } return ar; }; var __spread = (this && this.__spread) || function () { for (var ar = [], i = 0; i < arguments.length; i++) ar = ar.concat(__read(arguments[i])); return ar; }; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; Object.defineProperty(exports, "__esModule", ({ value: true })); var util_1 = __nccwpck_require__(76195); /** * Adds the given item to the end of the list. * * @param list - a list * @param item - an item */ function append(list, item) { list.push(item); } exports.append = append; /** * Extends a list by appending all items from another list. * * @param listA - a list to extend * @param listB - a list containing items to append to `listA` */ function extend(listA, listB) { listA.push.apply(listA, __spread(listB)); } exports.extend = extend; /** * Inserts the given item to the start of the list. * * @param list - a list * @param item - an item */ function prepend(list, item) { list.unshift(item); } exports.prepend = prepend; /** * Replaces the given item or all items matching condition with a new item. * * @param list - a list * @param conditionOrItem - an item to replace or a condition matching items * to replace * @param item - an item */ function replace(list, conditionOrItem, newItem) { var e_1, _a; var i = 0; try { for (var list_1 = __values(list), list_1_1 = list_1.next(); !list_1_1.done; list_1_1 = list_1.next()) { var oldItem = list_1_1.value; if (util_1.isFunction(conditionOrItem)) { if (!!conditionOrItem.call(null, oldItem)) { list[i] = newItem; } } else if (oldItem === conditionOrItem) { list[i] = newItem; return; } i++; } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (list_1_1 && !list_1_1.done && (_a = list_1.return)) _a.call(list_1); } finally { if (e_1) throw e_1.error; } } } exports.replace = replace; /** * Inserts the given item before the given index. * * @param list - a list * @param item - an item */ function insert(list, item, index) { list.splice(index, 0, item); } exports.insert = insert; /** * Removes the given item or all items matching condition. * * @param list - a list * @param conditionOrItem - an item to remove or a condition matching items * to remove */ function remove(list, conditionOrItem) { var i = list.length; while (i--) { var oldItem = list[i]; if (util_1.isFunction(conditionOrItem)) { if (!!conditionOrItem.call(null, oldItem)) { list.splice(i, 1); } } else if (oldItem === conditionOrItem) { list.splice(i, 1); return; } } } exports.remove = remove; /** * Removes all items from the list. */ function empty(list) { list.length = 0; } exports.empty = empty; /** * Determines if the list contains the given item or any items matching * condition. * * @param list - a list * @param conditionOrItem - an item to a condition to match */ function contains(list, conditionOrItem) { var e_2, _a; try { for (var list_2 = __values(list), list_2_1 = list_2.next(); !list_2_1.done; list_2_1 = list_2.next()) { var oldItem = list_2_1.value; if (util_1.isFunction(conditionOrItem)) { if (!!conditionOrItem.call(null, oldItem)) { return true; } } else if (oldItem === conditionOrItem) { return true; } } } catch (e_2_1) { e_2 = { error: e_2_1 }; } finally { try { if (list_2_1 && !list_2_1.done && (_a = list_2.return)) _a.call(list_2); } finally { if (e_2) throw e_2.error; } } return false; } exports.contains = contains; /** * Returns the count of items in the list matching the given condition. * * @param list - a list * @param condition - an optional condition to match */ function size(list, condition) { var e_3, _a; if (condition === undefined) { return list.length; } else { var count = 0; try { for (var list_3 = __values(list), list_3_1 = list_3.next(); !list_3_1.done; list_3_1 = list_3.next()) { var item = list_3_1.value; if (!!condition.call(null, item)) { count++; } } } catch (e_3_1) { e_3 = { error: e_3_1 }; } finally { try { if (list_3_1 && !list_3_1.done && (_a = list_3.return)) _a.call(list_3); } finally { if (e_3) throw e_3.error; } } return count; } } exports.size = size; /** * Determines if the list is empty. * * @param list - a list */ function isEmpty(list) { return list.length === 0; } exports.isEmpty = isEmpty; /** * Returns an iterator for the items of the list. * * @param list - a list * @param condition - an optional condition to match */ function forEach(list, condition) { var list_4, list_4_1, item, e_4_1; var e_4, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: if (!(condition === undefined)) return [3 /*break*/, 2]; return [5 /*yield**/, __values(list)]; case 1: _b.sent(); return [3 /*break*/, 9]; case 2: _b.trys.push([2, 7, 8, 9]); list_4 = __values(list), list_4_1 = list_4.next(); _b.label = 3; case 3: if (!!list_4_1.done) return [3 /*break*/, 6]; item = list_4_1.value; if (!!!condition.call(null, item)) return [3 /*break*/, 5]; return [4 /*yield*/, item]; case 4: _b.sent(); _b.label = 5; case 5: list_4_1 = list_4.next(); return [3 /*break*/, 3]; case 6: return [3 /*break*/, 9]; case 7: e_4_1 = _b.sent(); e_4 = { error: e_4_1 }; return [3 /*break*/, 9]; case 8: try { if (list_4_1 && !list_4_1.done && (_a = list_4.return)) _a.call(list_4); } finally { if (e_4) throw e_4.error; } return [7 /*endfinally*/]; case 9: return [2 /*return*/]; } }); } exports.forEach = forEach; /** * Creates and returns a shallow clone of list. * * @param list - a list */ function clone(list) { return new (Array.bind.apply(Array, __spread([void 0], list)))(); } exports.clone = clone; /** * Returns a new list containing items from the list sorted in ascending * order. * * @param list - a list * @param lessThanAlgo - a function that returns `true` if its first argument * is less than its second argument, and `false` otherwise. */ function sortInAscendingOrder(list, lessThanAlgo) { return list.sort(function (itemA, itemB) { return lessThanAlgo.call(null, itemA, itemB) ? -1 : 1; }); } exports.sortInAscendingOrder = sortInAscendingOrder; /** * Returns a new list containing items from the list sorted in descending * order. * * @param list - a list * @param lessThanAlgo - a function that returns `true` if its first argument * is less than its second argument, and `false` otherwise. */ function sortInDescendingOrder(list, lessThanAlgo) { return list.sort(function (itemA, itemB) { return lessThanAlgo.call(null, itemA, itemB) ? 1 : -1; }); } exports.sortInDescendingOrder = sortInDescendingOrder; //# sourceMappingURL=List.js.map /***/ }), /***/ 22298: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __generator = (this && this.__generator) || function (thisArg, body) { var _ = { label: 0, sent: function() { if (t[0] & 1) throw t[1]; return t[1]; }, trys: [], ops: [] }, f, y, t, g; return g = { next: verb(0), "throw": verb(1), "return": verb(2) }, typeof Symbol === "function" && (g[Symbol.iterator] = function() { return this; }), g; function verb(n) { return function (v) { return step([n, v]); }; } function step(op) { if (f) throw new TypeError("Generator is already executing."); while (_) try { if (f = 1, y && (t = op[0] & 2 ? y["return"] : op[0] ? y["throw"] || ((t = y["return"]) && t.call(y), 0) : y.next) && !(t = t.call(y, op[1])).done) return t; if (y = 0, t) op = [op[0] & 2, t.value]; switch (op[0]) { case 0: case 1: t = op; break; case 4: _.label++; return { value: op[1], done: false }; case 5: _.label++; y = op[1]; op = [0]; continue; case 7: op = _.ops.pop(); _.trys.pop(); continue; default: if (!(t = _.trys, t = t.length > 0 && t[t.length - 1]) && (op[0] === 6 || op[0] === 2)) { _ = 0; continue; } if (op[0] === 3 && (!t || (op[1] > t[0] && op[1] < t[3]))) { _.label = op[1]; break; } if (op[0] === 6 && _.label < t[1]) { _.label = t[1]; t = op; break; } if (t && _.label < t[2]) { _.label = t[2]; _.ops.push(op); break; } if (t[2]) _.ops.pop(); _.trys.pop(); continue; } op = body.call(thisArg, _); } catch (e) { op = [6, e]; y = 0; } finally { f = t = 0; } if (op[0] & 5) throw op[1]; return { value: op[0] ? op[1] : void 0, done: true }; } }; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; var __read = (this && this.__read) || function (o, n) { var m = typeof Symbol === "function" && o[Symbol.iterator]; if (!m) return o; var i = m.call(o), r, ar = [], e; try { while ((n === void 0 || n-- > 0) && !(r = i.next()).done) ar.push(r.value); } catch (error) { e = { error: error }; } finally { try { if (r && !r.done && (m = i["return"])) m.call(i); } finally { if (e) throw e.error; } } return ar; }; var __spread = (this && this.__spread) || function () { for (var ar = [], i = 0; i < arguments.length; i++) ar = ar.concat(__read(arguments[i])); return ar; }; Object.defineProperty(exports, "__esModule", ({ value: true })); var util_1 = __nccwpck_require__(76195); /** * Gets the value corresponding to the given key. * * @param map - a map * @param key - a key */ function get(map, key) { return map.get(key); } exports.get = get; /** * Sets the value corresponding to the given key. * * @param map - a map * @param key - a key * @param val - a value */ function set(map, key, val) { map.set(key, val); } exports.set = set; /** * Removes the item with the given key or all items matching condition. * * @param map - a map * @param conditionOrItem - the key of an item to remove or a condition matching * items to remove */ function remove(map, conditionOrItem) { var e_1, _a, e_2, _b; if (!util_1.isFunction(conditionOrItem)) { map.delete(conditionOrItem); } else { var toRemove = []; try { for (var map_1 = __values(map), map_1_1 = map_1.next(); !map_1_1.done; map_1_1 = map_1.next()) { var item = map_1_1.value; if (!!conditionOrItem.call(null, item)) { toRemove.push(item[0]); } } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (map_1_1 && !map_1_1.done && (_a = map_1.return)) _a.call(map_1); } finally { if (e_1) throw e_1.error; } } try { for (var toRemove_1 = __values(toRemove), toRemove_1_1 = toRemove_1.next(); !toRemove_1_1.done; toRemove_1_1 = toRemove_1.next()) { var key = toRemove_1_1.value; map.delete(key); } } catch (e_2_1) { e_2 = { error: e_2_1 }; } finally { try { if (toRemove_1_1 && !toRemove_1_1.done && (_b = toRemove_1.return)) _b.call(toRemove_1); } finally { if (e_2) throw e_2.error; } } } } exports.remove = remove; /** * Determines if the map contains a value with the given key. * * @param map - a map * @param conditionOrItem - the key of an item to match or a condition matching * items */ function contains(map, conditionOrItem) { var e_3, _a; if (!util_1.isFunction(conditionOrItem)) { return map.has(conditionOrItem); } else { try { for (var map_2 = __values(map), map_2_1 = map_2.next(); !map_2_1.done; map_2_1 = map_2.next()) { var item = map_2_1.value; if (!!conditionOrItem.call(null, item)) { return true; } } } catch (e_3_1) { e_3 = { error: e_3_1 }; } finally { try { if (map_2_1 && !map_2_1.done && (_a = map_2.return)) _a.call(map_2); } finally { if (e_3) throw e_3.error; } } return false; } } exports.contains = contains; /** * Gets the keys of the map. * * @param map - a map */ function keys(map) { return new Set(map.keys()); } exports.keys = keys; /** * Gets the values of the map. * * @param map - a map */ function values(map) { return __spread(map.values()); } exports.values = values; /** * Gets the size of the map. * * @param map - a map * @param condition - an optional condition to match */ function size(map, condition) { var e_4, _a; if (condition === undefined) { return map.size; } else { var count = 0; try { for (var map_3 = __values(map), map_3_1 = map_3.next(); !map_3_1.done; map_3_1 = map_3.next()) { var item = map_3_1.value; if (!!condition.call(null, item)) { count++; } } } catch (e_4_1) { e_4 = { error: e_4_1 }; } finally { try { if (map_3_1 && !map_3_1.done && (_a = map_3.return)) _a.call(map_3); } finally { if (e_4) throw e_4.error; } } return count; } } exports.size = size; /** * Determines if the map is empty. * * @param map - a map */ function isEmpty(map) { return map.size === 0; } exports.isEmpty = isEmpty; /** * Returns an iterator for the items of the map. * * @param map - a map * @param condition - an optional condition to match */ function forEach(map, condition) { var map_4, map_4_1, item, e_5_1; var e_5, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: if (!(condition === undefined)) return [3 /*break*/, 2]; return [5 /*yield**/, __values(map)]; case 1: _b.sent(); return [3 /*break*/, 9]; case 2: _b.trys.push([2, 7, 8, 9]); map_4 = __values(map), map_4_1 = map_4.next(); _b.label = 3; case 3: if (!!map_4_1.done) return [3 /*break*/, 6]; item = map_4_1.value; if (!!!condition.call(null, item)) return [3 /*break*/, 5]; return [4 /*yield*/, item]; case 4: _b.sent(); _b.label = 5; case 5: map_4_1 = map_4.next(); return [3 /*break*/, 3]; case 6: return [3 /*break*/, 9]; case 7: e_5_1 = _b.sent(); e_5 = { error: e_5_1 }; return [3 /*break*/, 9]; case 8: try { if (map_4_1 && !map_4_1.done && (_a = map_4.return)) _a.call(map_4); } finally { if (e_5) throw e_5.error; } return [7 /*endfinally*/]; case 9: return [2 /*return*/]; } }); } exports.forEach = forEach; /** * Creates and returns a shallow clone of map. * * @param map - a map */ function clone(map) { return new Map(map); } exports.clone = clone; /** * Returns a new map containing items from the map sorted in ascending * order. * * @param map - a map * @param lessThanAlgo - a function that returns `true` if its first argument * is less than its second argument, and `false` otherwise. */ function sortInAscendingOrder(map, lessThanAlgo) { var list = new (Array.bind.apply(Array, __spread([void 0], map)))(); list.sort(function (itemA, itemB) { return lessThanAlgo.call(null, itemA, itemB) ? -1 : 1; }); return new Map(list); } exports.sortInAscendingOrder = sortInAscendingOrder; /** * Returns a new map containing items from the map sorted in descending * order. * * @param map - a map * @param lessThanAlgo - a function that returns `true` if its first argument * is less than its second argument, and `false` otherwise. */ function sortInDescendingOrder(map, lessThanAlgo) { var list = new (Array.bind.apply(Array, __spread([void 0], map)))(); list.sort(function (itemA, itemB) { return lessThanAlgo.call(null, itemA, itemB) ? 1 : -1; }); return new Map(list); } exports.sortInDescendingOrder = sortInDescendingOrder; //# sourceMappingURL=Map.js.map /***/ }), /***/ 93764: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.HTML = "http://www.w3.org/1999/xhtml"; exports.XML = "http://www.w3.org/XML/1998/namespace"; exports.XMLNS = "http://www.w3.org/2000/xmlns/"; exports.MathML = "http://www.w3.org/1998/Math/MathML"; exports.SVG = "http://www.w3.org/2000/svg"; exports.XLink = "http://www.w3.org/1999/xlink"; //# sourceMappingURL=Namespace.js.map /***/ }), /***/ 39201: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); /** * Appends the given item to the queue. * * @param list - a list * @param item - an item */ function enqueue(list, item) { list.push(item); } exports.enqueue = enqueue; /** * Removes and returns an item from the queue. * * @param list - a list */ function dequeue(list) { return list.shift() || null; } exports.dequeue = dequeue; //# sourceMappingURL=Queue.js.map /***/ }), /***/ 35931: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __generator = (this && this.__generator) || function (thisArg, body) { var _ = { label: 0, sent: function() { if (t[0] & 1) throw t[1]; return t[1]; }, trys: [], ops: [] }, f, y, t, g; return g = { next: verb(0), "throw": verb(1), "return": verb(2) }, typeof Symbol === "function" && (g[Symbol.iterator] = function() { return this; }), g; function verb(n) { return function (v) { return step([n, v]); }; } function step(op) { if (f) throw new TypeError("Generator is already executing."); while (_) try { if (f = 1, y && (t = op[0] & 2 ? y["return"] : op[0] ? y["throw"] || ((t = y["return"]) && t.call(y), 0) : y.next) && !(t = t.call(y, op[1])).done) return t; if (y = 0, t) op = [op[0] & 2, t.value]; switch (op[0]) { case 0: case 1: t = op; break; case 4: _.label++; return { value: op[1], done: false }; case 5: _.label++; y = op[1]; op = [0]; continue; case 7: op = _.ops.pop(); _.trys.pop(); continue; default: if (!(t = _.trys, t = t.length > 0 && t[t.length - 1]) && (op[0] === 6 || op[0] === 2)) { _ = 0; continue; } if (op[0] === 3 && (!t || (op[1] > t[0] && op[1] < t[3]))) { _.label = op[1]; break; } if (op[0] === 6 && _.label < t[1]) { _.label = t[1]; t = op; break; } if (t && _.label < t[2]) { _.label = t[2]; _.ops.push(op); break; } if (t[2]) _.ops.pop(); _.trys.pop(); continue; } op = body.call(thisArg, _); } catch (e) { op = [6, e]; y = 0; } finally { f = t = 0; } if (op[0] & 5) throw op[1]; return { value: op[0] ? op[1] : void 0, done: true }; } }; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; var __read = (this && this.__read) || function (o, n) { var m = typeof Symbol === "function" && o[Symbol.iterator]; if (!m) return o; var i = m.call(o), r, ar = [], e; try { while ((n === void 0 || n-- > 0) && !(r = i.next()).done) ar.push(r.value); } catch (error) { e = { error: error }; } finally { try { if (r && !r.done && (m = i["return"])) m.call(i); } finally { if (e) throw e.error; } } return ar; }; var __spread = (this && this.__spread) || function () { for (var ar = [], i = 0; i < arguments.length; i++) ar = ar.concat(__read(arguments[i])); return ar; }; Object.defineProperty(exports, "__esModule", ({ value: true })); var util_1 = __nccwpck_require__(76195); /** * Adds the given item to the end of the set. * * @param set - a set * @param item - an item */ function append(set, item) { set.add(item); } exports.append = append; /** * Extends a set by appending all items from another set. * * @param setA - a list to extend * @param setB - a list containing items to append to `setA` */ function extend(setA, setB) { setB.forEach(setA.add, setA); } exports.extend = extend; /** * Inserts the given item to the start of the set. * * @param set - a set * @param item - an item */ function prepend(set, item) { var cloned = new Set(set); set.clear(); set.add(item); cloned.forEach(set.add, set); } exports.prepend = prepend; /** * Replaces the given item or all items matching condition with a new item. * * @param set - a set * @param conditionOrItem - an item to replace or a condition matching items * to replace * @param item - an item */ function replace(set, conditionOrItem, newItem) { var e_1, _a; var newSet = new Set(); try { for (var set_1 = __values(set), set_1_1 = set_1.next(); !set_1_1.done; set_1_1 = set_1.next()) { var oldItem = set_1_1.value; if (util_1.isFunction(conditionOrItem)) { if (!!conditionOrItem.call(null, oldItem)) { newSet.add(newItem); } else { newSet.add(oldItem); } } else if (oldItem === conditionOrItem) { newSet.add(newItem); } else { newSet.add(oldItem); } } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (set_1_1 && !set_1_1.done && (_a = set_1.return)) _a.call(set_1); } finally { if (e_1) throw e_1.error; } } set.clear(); newSet.forEach(set.add, set); } exports.replace = replace; /** * Inserts the given item before the given index. * * @param set - a set * @param item - an item */ function insert(set, item, index) { var e_2, _a; var newSet = new Set(); var i = 0; try { for (var set_2 = __values(set), set_2_1 = set_2.next(); !set_2_1.done; set_2_1 = set_2.next()) { var oldItem = set_2_1.value; if (i === index) newSet.add(item); newSet.add(oldItem); i++; } } catch (e_2_1) { e_2 = { error: e_2_1 }; } finally { try { if (set_2_1 && !set_2_1.done && (_a = set_2.return)) _a.call(set_2); } finally { if (e_2) throw e_2.error; } } set.clear(); newSet.forEach(set.add, set); } exports.insert = insert; /** * Removes the given item or all items matching condition. * * @param set - a set * @param conditionOrItem - an item to remove or a condition matching items * to remove */ function remove(set, conditionOrItem) { var e_3, _a, e_4, _b; if (!util_1.isFunction(conditionOrItem)) { set.delete(conditionOrItem); } else { var toRemove = []; try { for (var set_3 = __values(set), set_3_1 = set_3.next(); !set_3_1.done; set_3_1 = set_3.next()) { var item = set_3_1.value; if (!!conditionOrItem.call(null, item)) { toRemove.push(item); } } } catch (e_3_1) { e_3 = { error: e_3_1 }; } finally { try { if (set_3_1 && !set_3_1.done && (_a = set_3.return)) _a.call(set_3); } finally { if (e_3) throw e_3.error; } } try { for (var toRemove_1 = __values(toRemove), toRemove_1_1 = toRemove_1.next(); !toRemove_1_1.done; toRemove_1_1 = toRemove_1.next()) { var oldItem = toRemove_1_1.value; set.delete(oldItem); } } catch (e_4_1) { e_4 = { error: e_4_1 }; } finally { try { if (toRemove_1_1 && !toRemove_1_1.done && (_b = toRemove_1.return)) _b.call(toRemove_1); } finally { if (e_4) throw e_4.error; } } } } exports.remove = remove; /** * Removes all items from the set. */ function empty(set) { set.clear(); } exports.empty = empty; /** * Determines if the set contains the given item or any items matching * condition. * * @param set - a set * @param conditionOrItem - an item to a condition to match */ function contains(set, conditionOrItem) { var e_5, _a; if (!util_1.isFunction(conditionOrItem)) { return set.has(conditionOrItem); } else { try { for (var set_4 = __values(set), set_4_1 = set_4.next(); !set_4_1.done; set_4_1 = set_4.next()) { var oldItem = set_4_1.value; if (!!conditionOrItem.call(null, oldItem)) { return true; } } } catch (e_5_1) { e_5 = { error: e_5_1 }; } finally { try { if (set_4_1 && !set_4_1.done && (_a = set_4.return)) _a.call(set_4); } finally { if (e_5) throw e_5.error; } } } return false; } exports.contains = contains; /** * Returns the count of items in the set matching the given condition. * * @param set - a set * @param condition - an optional condition to match */ function size(set, condition) { var e_6, _a; if (condition === undefined) { return set.size; } else { var count = 0; try { for (var set_5 = __values(set), set_5_1 = set_5.next(); !set_5_1.done; set_5_1 = set_5.next()) { var item = set_5_1.value; if (!!condition.call(null, item)) { count++; } } } catch (e_6_1) { e_6 = { error: e_6_1 }; } finally { try { if (set_5_1 && !set_5_1.done && (_a = set_5.return)) _a.call(set_5); } finally { if (e_6) throw e_6.error; } } return count; } } exports.size = size; /** * Determines if the set is empty. * * @param set - a set */ function isEmpty(set) { return set.size === 0; } exports.isEmpty = isEmpty; /** * Returns an iterator for the items of the set. * * @param set - a set * @param condition - an optional condition to match */ function forEach(set, condition) { var set_6, set_6_1, item, e_7_1; var e_7, _a; return __generator(this, function (_b) { switch (_b.label) { case 0: if (!(condition === undefined)) return [3 /*break*/, 2]; return [5 /*yield**/, __values(set)]; case 1: _b.sent(); return [3 /*break*/, 9]; case 2: _b.trys.push([2, 7, 8, 9]); set_6 = __values(set), set_6_1 = set_6.next(); _b.label = 3; case 3: if (!!set_6_1.done) return [3 /*break*/, 6]; item = set_6_1.value; if (!!!condition.call(null, item)) return [3 /*break*/, 5]; return [4 /*yield*/, item]; case 4: _b.sent(); _b.label = 5; case 5: set_6_1 = set_6.next(); return [3 /*break*/, 3]; case 6: return [3 /*break*/, 9]; case 7: e_7_1 = _b.sent(); e_7 = { error: e_7_1 }; return [3 /*break*/, 9]; case 8: try { if (set_6_1 && !set_6_1.done && (_a = set_6.return)) _a.call(set_6); } finally { if (e_7) throw e_7.error; } return [7 /*endfinally*/]; case 9: return [2 /*return*/]; } }); } exports.forEach = forEach; /** * Creates and returns a shallow clone of set. * * @param set - a set */ function clone(set) { return new Set(set); } exports.clone = clone; /** * Returns a new set containing items from the set sorted in ascending * order. * * @param set - a set * @param lessThanAlgo - a function that returns `true` if its first argument * is less than its second argument, and `false` otherwise. */ function sortInAscendingOrder(set, lessThanAlgo) { var list = new (Array.bind.apply(Array, __spread([void 0], set)))(); list.sort(function (itemA, itemB) { return lessThanAlgo.call(null, itemA, itemB) ? -1 : 1; }); return new Set(list); } exports.sortInAscendingOrder = sortInAscendingOrder; /** * Returns a new set containing items from the set sorted in descending * order. * * @param set - a set * @param lessThanAlgo - a function that returns `true` if its first argument * is less than its second argument, and `false` otherwise. */ function sortInDescendingOrder(set, lessThanAlgo) { var list = new (Array.bind.apply(Array, __spread([void 0], set)))(); list.sort(function (itemA, itemB) { return lessThanAlgo.call(null, itemA, itemB) ? 1 : -1; }); return new Set(list); } exports.sortInDescendingOrder = sortInDescendingOrder; /** * Determines if a set is a subset of another set. * * @param subset - a set * @param superset - a superset possibly containing all items from `subset`. */ function isSubsetOf(subset, superset) { var e_8, _a; try { for (var subset_1 = __values(subset), subset_1_1 = subset_1.next(); !subset_1_1.done; subset_1_1 = subset_1.next()) { var item = subset_1_1.value; if (!superset.has(item)) return false; } } catch (e_8_1) { e_8 = { error: e_8_1 }; } finally { try { if (subset_1_1 && !subset_1_1.done && (_a = subset_1.return)) _a.call(subset_1); } finally { if (e_8) throw e_8.error; } } return true; } exports.isSubsetOf = isSubsetOf; /** * Determines if a set is a superset of another set. * * @param superset - a set * @param subset - a subset possibly contained within `superset`. */ function isSupersetOf(superset, subset) { return isSubsetOf(subset, superset); } exports.isSupersetOf = isSupersetOf; /** * Returns a new set with items that are contained in both sets. * * @param setA - a set * @param setB - a set */ function intersection(setA, setB) { var e_9, _a; var newSet = new Set(); try { for (var setA_1 = __values(setA), setA_1_1 = setA_1.next(); !setA_1_1.done; setA_1_1 = setA_1.next()) { var item = setA_1_1.value; if (setB.has(item)) newSet.add(item); } } catch (e_9_1) { e_9 = { error: e_9_1 }; } finally { try { if (setA_1_1 && !setA_1_1.done && (_a = setA_1.return)) _a.call(setA_1); } finally { if (e_9) throw e_9.error; } } return newSet; } exports.intersection = intersection; /** * Returns a new set with items from both sets. * * @param setA - a set * @param setB - a set */ function union(setA, setB) { var newSet = new Set(setA); setB.forEach(newSet.add, newSet); return newSet; } exports.union = union; /** * Returns a set of integers from `n` to `m` inclusive. * * @param n - starting number * @param m - ending number */ function range(n, m) { var newSet = new Set(); for (var i = n; i <= m; i++) { newSet.add(i); } return newSet; } exports.range = range; //# sourceMappingURL=Set.js.map /***/ }), /***/ 38784: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); /** * Pushes the given item to the stack. * * @param list - a list * @param item - an item */ function push(list, item) { list.push(item); } exports.push = push; /** * Pops and returns an item from the stack. * * @param list - a list */ function pop(list) { return list.pop() || null; } exports.pop = pop; //# sourceMappingURL=Stack.js.map /***/ }), /***/ 13203: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; Object.defineProperty(exports, "__esModule", ({ value: true })); var CodePoints_1 = __nccwpck_require__(28548); var ByteSequence_1 = __nccwpck_require__(71627); var Byte_1 = __nccwpck_require__(42460); var util_1 = __nccwpck_require__(76195); /** * Determines if the string `a` is a code unit prefix of string `b`. * * @param a - a string * @param b - a string */ function isCodeUnitPrefix(a, b) { /** * 1. Let i be 0. * 2. While true: * 2.1. Let aCodeUnit be the ith code unit of a if i is less than a’s length; * otherwise null. * 2.2. Let bCodeUnit be the ith code unit of b if i is less than b’s length; * otherwise null. * 2.3. If bCodeUnit is null, then return true. * 2.4. Return false if aCodeUnit is different from bCodeUnit. * 2.5. Set i to i + 1. */ var i = 0; while (true) { var aCodeUnit = i < a.length ? a.charCodeAt(i) : null; var bCodeUnit = i < b.length ? b.charCodeAt(i) : null; if (aCodeUnit === null) return true; if (aCodeUnit !== bCodeUnit) return false; i++; } } exports.isCodeUnitPrefix = isCodeUnitPrefix; /** * Determines if the string `a` is a code unit less than string `b`. * * @param a - a string * @param b - a string */ function isCodeUnitLessThan(a, b) { /** * 1. If b is a code unit prefix of a, then return false. * 2. If a is a code unit prefix of b, then return true. * 3. Let n be the smallest index such that the nth code unit of a is * different from the nth code unit of b. (There has to be such an index, * since neither string is a prefix of the other.) * 4. If the nth code unit of a is less than the nth code unit of b, then * return true. * 5. Return false. */ if (isCodeUnitPrefix(b, a)) return false; if (isCodeUnitPrefix(a, b)) return true; for (var i = 0; i < Math.min(a.length, b.length); i++) { var aCodeUnit = a.charCodeAt(i); var bCodeUnit = b.charCodeAt(i); if (aCodeUnit === bCodeUnit) continue; return (aCodeUnit < bCodeUnit); } /* istanbul ignore next */ return false; } exports.isCodeUnitLessThan = isCodeUnitLessThan; /** * Isomorphic encodes the given string. * * @param str - a string */ function isomorphicEncode(str) { var e_1, _a; /** * 1. Assert: input contains no code points greater than U+00FF. * 2. Return a byte sequence whose length is equal to input’s length and whose * bytes have the same values as input’s code points, in the same order. */ var codePoints = Array.from(str); var bytes = new Uint8Array(codePoints.length); var i = 0; try { for (var str_1 = __values(str), str_1_1 = str_1.next(); !str_1_1.done; str_1_1 = str_1.next()) { var codePoint = str_1_1.value; var byte = codePoint.codePointAt(0); console.assert(byte !== undefined && byte <= 0x00FF, "isomorphicEncode requires string bytes to be less than or equal to 0x00FF."); if (byte !== undefined && byte <= 0x00FF) { bytes[i++] = byte; } } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (str_1_1 && !str_1_1.done && (_a = str_1.return)) _a.call(str_1); } finally { if (e_1) throw e_1.error; } } return bytes; } exports.isomorphicEncode = isomorphicEncode; /** * Determines if the given string is An ASCII string. * * @param str - a string */ function isASCIIString(str) { /** * An ASCII string is a string whose code points are all ASCII code points. */ return /^[\u0000-\u007F]*$/.test(str); } exports.isASCIIString = isASCIIString; /** * Converts all uppercase ASCII code points to lowercase. * * @param str - a string */ function asciiLowercase(str) { var e_2, _a; /** * To ASCII lowercase a string, replace all ASCII upper alphas in the string * with their corresponding code point in ASCII lower alpha. */ var result = ""; try { for (var str_2 = __values(str), str_2_1 = str_2.next(); !str_2_1.done; str_2_1 = str_2.next()) { var c = str_2_1.value; var code = c.codePointAt(0); if (code !== undefined && code >= 0x41 && code <= 0x5A) { result += String.fromCodePoint(code + 0x20); } else { result += c; } } } catch (e_2_1) { e_2 = { error: e_2_1 }; } finally { try { if (str_2_1 && !str_2_1.done && (_a = str_2.return)) _a.call(str_2); } finally { if (e_2) throw e_2.error; } } return result; } exports.asciiLowercase = asciiLowercase; /** * Converts all uppercase ASCII code points to uppercase. * * @param str - a string */ function asciiUppercase(str) { var e_3, _a; /** * To ASCII uppercase a string, replace all ASCII lower alphas in the string * with their corresponding code point in ASCII upper alpha. */ var result = ""; try { for (var str_3 = __values(str), str_3_1 = str_3.next(); !str_3_1.done; str_3_1 = str_3.next()) { var c = str_3_1.value; var code = c.codePointAt(0); if (code !== undefined && code >= 0x61 && code <= 0x7A) { result += String.fromCodePoint(code - 0x20); } else { result += c; } } } catch (e_3_1) { e_3 = { error: e_3_1 }; } finally { try { if (str_3_1 && !str_3_1.done && (_a = str_3.return)) _a.call(str_3); } finally { if (e_3) throw e_3.error; } } return result; } exports.asciiUppercase = asciiUppercase; /** * Compares two ASCII strings case-insensitively. * * @param a - a string * @param b - a string */ function asciiCaseInsensitiveMatch(a, b) { /** * A string A is an ASCII case-insensitive match for a string B, if the ASCII * lowercase of A is the ASCII lowercase of B. */ return asciiLowercase(a) === asciiLowercase(b); } exports.asciiCaseInsensitiveMatch = asciiCaseInsensitiveMatch; /** * ASCII encodes a string. * * @param str - a string */ function asciiEncode(str) { /** * 1. Assert: input is an ASCII string. * 2. Return the isomorphic encoding of input. */ console.assert(isASCIIString(str), "asciiEncode requires an ASCII string."); return isomorphicEncode(str); } exports.asciiEncode = asciiEncode; /** * ASCII decodes a byte sequence. * * @param bytes - a byte sequence */ function asciiDecode(bytes) { var e_4, _a; try { /** * 1. Assert: All bytes in input are ASCII bytes. * 2. Return the isomorphic decoding of input. */ for (var bytes_1 = __values(bytes), bytes_1_1 = bytes_1.next(); !bytes_1_1.done; bytes_1_1 = bytes_1.next()) { var byte = bytes_1_1.value; console.assert(Byte_1.isASCIIByte(byte), "asciiDecode requires an ASCII byte sequence."); } } catch (e_4_1) { e_4 = { error: e_4_1 }; } finally { try { if (bytes_1_1 && !bytes_1_1.done && (_a = bytes_1.return)) _a.call(bytes_1); } finally { if (e_4) throw e_4.error; } } return ByteSequence_1.isomorphicDecode(bytes); } exports.asciiDecode = asciiDecode; /** * Strips newline characters from a string. * * @param str - a string */ function stripNewlines(str) { /** * To strip newlines from a string, remove any U+000A LF and U+000D CR code * points from the string. */ return str.replace(/[\n\r]/g, ""); } exports.stripNewlines = stripNewlines; /** * Normalizes newline characters in a string by converting consecutive * carriage-return newline characters and also single carriage return characters * into a single newline. * * @param str - a string */ function normalizeNewlines(str) { /** * To normalize newlines in a string, replace every U+000D CR U+000A LF code * point pair with a single U+000A LF code point, and then replace every * remaining U+000D CR code point with a U+000A LF code point. */ return str.replace(/\r\n/g, "\n").replace(/\r/g, "\n"); } exports.normalizeNewlines = normalizeNewlines; /** * Removes leading and trailing whitespace characters from a string. * * @param str - a string */ function stripLeadingAndTrailingASCIIWhitespace(str) { /** * To strip leading and trailing ASCII whitespace from a string, remove all * ASCII whitespace that are at the start or the end of the string. */ return str.replace(/^[\t\n\f\r ]+/, "").replace(/[\t\n\f\r ]+$/, ""); } exports.stripLeadingAndTrailingASCIIWhitespace = stripLeadingAndTrailingASCIIWhitespace; /** * Removes consecutive newline characters from a string. * * @param str - a string */ function stripAndCollapseASCIIWhitespace(str) { /** * To strip and collapse ASCII whitespace in a string, replace any sequence of * one or more consecutive code points that are ASCII whitespace in the string * with a single U+0020 SPACE code point, and then remove any leading and * trailing ASCII whitespace from that string. */ return stripLeadingAndTrailingASCIIWhitespace(str.replace(/[\t\n\f\r ]{2,}/g, " ")); } exports.stripAndCollapseASCIIWhitespace = stripAndCollapseASCIIWhitespace; /** * Collects a sequence of code points matching a given condition from the input * string. * * @param condition - a condition to match * @param input - a string * @param options - starting position */ function collectASequenceOfCodePoints(condition, input, options) { /** * 1. Let result be the empty string. * 2. While position doesn’t point past the end of input and the code point at * position within input meets the condition condition: * 2.1. Append that code point to the end of result. * 2.2. Advance position by 1. * 3. Return result. */ if (!util_1.isArray(input)) return collectASequenceOfCodePoints(condition, Array.from(input), options); var result = ""; while (options.position < input.length && !!condition.call(null, input[options.position])) { result += input[options.position]; options.position++; } return result; } exports.collectASequenceOfCodePoints = collectASequenceOfCodePoints; /** * Skips over ASCII whitespace. * * @param input - input string * @param options - starting position */ function skipASCIIWhitespace(input, options) { /** * To skip ASCII whitespace within a string input given a position variable * position, collect a sequence of code points that are ASCII whitespace from * input given position. The collected code points are not used, but position * is still updated. */ collectASequenceOfCodePoints(function (str) { return CodePoints_1.ASCIIWhiteSpace.test(str); }, input, options); } exports.skipASCIIWhitespace = skipASCIIWhitespace; /** * Solits a string at the given delimiter. * * @param input - input string * @param delimiter - a delimiter string */ function strictlySplit(input, delimiter) { /** * 1. Let position be a position variable for input, initially pointing at the * start of input. * 2. Let tokens be a list of strings, initially empty. * 3. Let token be the result of collecting a sequence of code points that are * not equal to delimiter from input, given position. * 4. Append token to tokens. * 5. While position is not past the end of input: * 5.1. Assert: the code point at position within input is delimiter. * 5.2. Advance position by 1. * 5.3. Let token be the result of collecting a sequence of code points that * are not equal to delimiter from input, given position. * 5.4. Append token to tokens. * 6. Return tokens. */ if (!util_1.isArray(input)) return strictlySplit(Array.from(input), delimiter); var options = { position: 0 }; var tokens = []; var token = collectASequenceOfCodePoints(function (str) { return delimiter !== str; }, input, options); tokens.push(token); while (options.position < input.length) { console.assert(input[options.position] === delimiter, "strictlySplit found no delimiter in input string."); options.position++; token = collectASequenceOfCodePoints(function (str) { return delimiter !== str; }, input, options); tokens.push(token); } return tokens; } exports.strictlySplit = strictlySplit; /** * Splits a string on ASCII whitespace. * * @param input - a string */ function splitAStringOnASCIIWhitespace(input) { /** * 1. Let position be a position variable for input, initially pointing at the * start of input. * 2. Let tokens be a list of strings, initially empty. * 3. Skip ASCII whitespace within input given position. * 4. While position is not past the end of input: * 4.1. Let token be the result of collecting a sequence of code points that * are not ASCII whitespace from input, given position. * 4.2. Append token to tokens. * 4.3. Skip ASCII whitespace within input given position. * 5. Return tokens. */ if (!util_1.isArray(input)) return splitAStringOnASCIIWhitespace(Array.from(input)); var options = { position: 0 }; var tokens = []; skipASCIIWhitespace(input, options); while (options.position < input.length) { var token = collectASequenceOfCodePoints(function (str) { return !CodePoints_1.ASCIIWhiteSpace.test(str); }, input, options); tokens.push(token); skipASCIIWhitespace(input, options); } return tokens; } exports.splitAStringOnASCIIWhitespace = splitAStringOnASCIIWhitespace; /** * Splits a string on commas. * * @param input - a string */ function splitAStringOnCommas(input) { /** * 1. Let position be a position variable for input, initially pointing at the * start of input. * 2. Let tokens be a list of strings, initially empty. * 3. While position is not past the end of input: * 3.1. Let token be the result of collecting a sequence of code points that * are not U+002C (,) from input, given position. * 3.2. Strip leading and trailing ASCII whitespace from token. * 3.3. Append token to tokens. * 3.4. If position is not past the end of input, then: * 3.4.1. Assert: the code point at position within input is U+002C (,). * 3.4.2. Advance position by 1. * 4. Return tokens. */ if (!util_1.isArray(input)) return splitAStringOnCommas(Array.from(input)); var options = { position: 0 }; var tokens = []; while (options.position < input.length) { var token = collectASequenceOfCodePoints(function (str) { return str !== ','; }, input, options); tokens.push(stripLeadingAndTrailingASCIIWhitespace(token)); if (options.position < input.length) { console.assert(input[options.position] === ',', "splitAStringOnCommas found no delimiter in input string."); options.position++; } } return tokens; } exports.splitAStringOnCommas = splitAStringOnCommas; /** * Concatenates a list of strings with the given separator. * * @param list - a list of strings * @param separator - a separator string */ function concatenate(list, separator) { if (separator === void 0) { separator = ""; } /** * 1. If list is empty, then return the empty string. * 2. If separator is not given, then set separator to the empty string. * 3. Return a string whose contents are list’s items, in order, separated * from each other by separator. */ if (list.length === 0) return ""; return list.join(separator); } exports.concatenate = concatenate; //# sourceMappingURL=String.js.map /***/ }), /***/ 84251: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (Object.hasOwnProperty.call(mod, k)) result[k] = mod[k]; result["default"] = mod; return result; }; Object.defineProperty(exports, "__esModule", ({ value: true })); var base64 = __importStar(__nccwpck_require__(28585)); exports.base64 = base64; var byte = __importStar(__nccwpck_require__(42460)); exports.byte = byte; var byteSequence = __importStar(__nccwpck_require__(71627)); exports.byteSequence = byteSequence; var codePoint = __importStar(__nccwpck_require__(28548)); exports.codePoint = codePoint; var json = __importStar(__nccwpck_require__(99387)); exports.json = json; var list = __importStar(__nccwpck_require__(20340)); exports.list = list; var map = __importStar(__nccwpck_require__(22298)); exports.map = map; var namespace = __importStar(__nccwpck_require__(93764)); exports.namespace = namespace; var queue = __importStar(__nccwpck_require__(39201)); exports.queue = queue; var set = __importStar(__nccwpck_require__(35931)); exports.set = set; var stack = __importStar(__nccwpck_require__(38784)); exports.stack = stack; var string = __importStar(__nccwpck_require__(13203)); exports.string = string; //# sourceMappingURL=index.js.map /***/ }), /***/ 53568: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; var __read = (this && this.__read) || function (o, n) { var m = typeof Symbol === "function" && o[Symbol.iterator]; if (!m) return o; var i = m.call(o), r, ar = [], e; try { while ((n === void 0 || n-- > 0) && !(r = i.next()).done) ar.push(r.value); } catch (error) { e = { error: error }; } finally { try { if (r && !r.done && (m = i["return"])) m.call(i); } finally { if (e) throw e.error; } } return ar; }; Object.defineProperty(exports, "__esModule", ({ value: true })); var util_1 = __nccwpck_require__(76195); var interfaces_1 = __nccwpck_require__(31752); var infra_1 = __nccwpck_require__(84251); var url_1 = __nccwpck_require__(57310); var _validationErrorCallback; /** * Default ports for a special URL scheme. */ var _defaultPorts = { "ftp": 21, "file": null, "http": 80, "https": 443, "ws": 80, "wss": 443 }; /** * The C0 control percent-encode set are the C0 controls and all code points * greater than U+007E (~). */ var _c0ControlPercentEncodeSet = /[\0-\x1F\x7F-\uD7FF\uE000-\uFFFF]|[\uD800-\uDBFF][\uDC00-\uDFFF]|[\uD800-\uDBFF](?![\uDC00-\uDFFF])|(?:[^\uD800-\uDBFF]|^)[\uDC00-\uDFFF]/; /** * The fragment percent-encode set is the C0 control percent-encode set and * U+0020 SPACE, U+0022 ("), U+003C (<), U+003E (>), and U+0060 (`). */ var _fragmentPercentEncodeSet = /[ "<>`]|[\0-\x1F\x7F-\uD7FF\uE000-\uFFFF]|[\uD800-\uDBFF][\uDC00-\uDFFF]|[\uD800-\uDBFF](?![\uDC00-\uDFFF])|(?:[^\uD800-\uDBFF]|^)[\uDC00-\uDFFF]/; /** * The path percent-encode set is the fragment percent-encode set and * U+0023 (#), U+003F (?), U+007B ({), and U+007D (}). */ var _pathPercentEncodeSet = /[ "<>`#?{}]|[\0-\x1F\x7F-\uD7FF\uE000-\uFFFF]|[\uD800-\uDBFF][\uDC00-\uDFFF]|[\uD800-\uDBFF](?![\uDC00-\uDFFF])|(?:[^\uD800-\uDBFF]|^)[\uDC00-\uDFFF]/; /** * The userinfo percent-encode set is the path percent-encode set and * U+002F (/), U+003A (:), U+003B (;), U+003D (=), U+0040 (@), U+005B ([), * U+005C (\), U+005D (]), U+005E (^), and U+007C (|). */ var _userInfoPercentEncodeSet = /[ "<>`#?{}/:;=@\[\]\\\^\|]|[\0-\x1F\x7F-\uD7FF\uE000-\uFFFF]|[\uD800-\uDBFF][\uDC00-\uDFFF]|[\uD800-\uDBFF](?![\uDC00-\uDFFF])|(?:[^\uD800-\uDBFF]|^)[\uDC00-\uDFFF]/; /** * The URL code points are ASCII alphanumeric, U+0021 (!), U+0024 ($), * U+0026 (&), U+0027 ('), U+0028 LEFT PARENTHESIS, U+0029 RIGHT PARENTHESIS, * U+002A (*), U+002B (+), U+002C (,), U+002D (-), U+002E (.), U+002F (/), * U+003A (:), U+003B (;), U+003D (=), U+003F (?), U+0040 (@), U+005F (_), * U+007E (~), and code points in the range U+00A0 to U+10FFFD, inclusive, * excluding surrogates and noncharacters. */ var _urlCodePoints = /[0-9A-Za-z!\$&-\/:;=\?@_~\xA0-\uD7FF\uE000-\uFDCF\uFDF0-\uFFFD]|[\uD800-\uD83E\uD840-\uD87E\uD880-\uD8BE\uD8C0-\uD8FE\uD900-\uD93E\uD940-\uD97E\uD980-\uD9BE\uD9C0-\uD9FE\uDA00-\uDA3E\uDA40-\uDA7E\uDA80-\uDABE\uDAC0-\uDAFE\uDB00-\uDB3E\uDB40-\uDB7E\uDB80-\uDBBE\uDBC0-\uDBFE][\uDC00-\uDFFF]|[\uD83F\uD87F\uD8BF\uD8FF\uD93F\uD97F\uD9BF\uD9FF\uDA3F\uDA7F\uDABF\uDAFF\uDB3F\uDB7F\uDBBF\uDBFF][\uDC00-\uDFFD]/; /** * A forbidden host code point is U+0000 NULL, U+0009 TAB, U+000A LF, * U+000D CR, U+0020 SPACE, U+0023 (#), U+0025 (%), U+002F (/), U+003A (:), * U+003F (?), U+0040 (@), U+005B ([), U+005C (\), or U+005D (]). */ var _forbiddenHostCodePoint = /[\0\t\f\r #%/:?@\[\\\]]/; /** * Sets the callback function for validation errors. * * @param validationErrorCallback - a callback function to be called when a * validation error occurs */ function setValidationErrorCallback(validationErrorCallback) { _validationErrorCallback = validationErrorCallback; } exports.setValidationErrorCallback = setValidationErrorCallback; /** * Generates a validation error. * * @param message - error message */ function validationError(message) { if (_validationErrorCallback !== undefined) { _validationErrorCallback.call(null, "Validation Error: " + message); } } /** * Creates a new URL. */ function newURL() { return { scheme: '', username: '', password: '', host: null, port: null, path: [], query: null, fragment: null, _cannotBeABaseURLFlag: false, _blobURLEntry: null }; } exports.newURL = newURL; /** * Determines if the scheme is a special scheme. * * @param scheme - a scheme */ function isSpecialScheme(scheme) { return (scheme in _defaultPorts); } exports.isSpecialScheme = isSpecialScheme; /** * Determines if the URL has a special scheme. * * @param url - an URL */ function isSpecial(url) { return isSpecialScheme(url.scheme); } exports.isSpecial = isSpecial; /** * Returns the default port for a special scheme. * * @param scheme - a scheme */ function defaultPort(scheme) { return _defaultPorts[scheme] || null; } exports.defaultPort = defaultPort; /** * Determines if the URL has credentials. * * @param url - an URL */ function includesCredentials(url) { return url.username !== '' || url.password !== ''; } exports.includesCredentials = includesCredentials; /** * Determines if an URL cannot have credentials. * * @param url - an URL */ function cannotHaveAUsernamePasswordPort(url) { /** * A URL cannot have a username/password/port if its host is null or the * empty string, its cannot-be-a-base-URL flag is set, or its scheme is * "file". */ return (url.host === null || url.host === "" || url._cannotBeABaseURLFlag || url.scheme === "file"); } exports.cannotHaveAUsernamePasswordPort = cannotHaveAUsernamePasswordPort; /** * Serializes an URL into a string. * * @param url - an URL */ function urlSerializer(url, excludeFragmentFlag) { var e_1, _a; if (excludeFragmentFlag === void 0) { excludeFragmentFlag = false; } /** * 1. Let output be url’s scheme and U+003A (:) concatenated. */ var output = url.scheme + ':'; /** * 2. If url’s host is non-null: */ if (url.host !== null) { /** * 2.1. Append "//" to output. */ output += '//'; /** * 2.2. If url includes credentials, then: */ if (includesCredentials(url)) { /** * 2.2.1. Append url’s username to output. * 2.2.2. If url’s password is not the empty string, then append U+003A (:), * followed by url’s password, to output. * 2.2.3. Append U+0040 (@) to output. */ output += url.username; if (url.password !== '') { output += ':' + url.password; } output += '@'; } /** * 2.3. Append url’s host, serialized, to output. * 2.4. If url’s port is non-null, append U+003A (:) followed by url’s port, * serialized, to output. */ output += hostSerializer(url.host); if (url.port !== null) { output += ':' + url.port; } } else if (url.host === null && url.scheme === "file") { /** * 3. Otherwise, if url’s host is null and url’s scheme is "file", append "//" to output. */ output += '//'; } /** * 4. If url’s cannot-be-a-base-URL flag is set, append url’s path[0] to * output. * 5. Otherwise, then for each string in url’s path, append U+002F (/) * followed by the string to output. */ if (url._cannotBeABaseURLFlag) { output += url.path[0]; } else { try { for (var _b = __values(url.path), _c = _b.next(); !_c.done; _c = _b.next()) { var str = _c.value; output += '/' + str; } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (_c && !_c.done && (_a = _b.return)) _a.call(_b); } finally { if (e_1) throw e_1.error; } } } /** * 6. If url’s query is non-null, append U+003F (?), followed by url’s * query, to output. * 7. If the exclude fragment flag is unset and url’s fragment is non-null, * append U+0023 (#), followed by url’s fragment, to output. * 8. Return output. */ if (url.query !== null) { output += '?' + url.query; } if (!excludeFragmentFlag && url.fragment !== null) { output += '#' + url.fragment; } return output; } exports.urlSerializer = urlSerializer; /** * Serializes a host into a string. * * @param host - a host */ function hostSerializer(host) { /** * 1. If host is an IPv4 address, return the result of running the IPv4 * serializer on host. * 2. Otherwise, if host is an IPv6 address, return U+005B ([), followed * by the result of running the IPv6 serializer on host, followed by * U+005D (]). * 3. Otherwise, host is a domain, opaque host, or empty host, return host. */ if (util_1.isNumber(host)) { return iPv4Serializer(host); } else if (util_1.isArray(host)) { return '[' + iPv6Serializer(host) + ']'; } else { return host; } } exports.hostSerializer = hostSerializer; /** * Serializes an IPv4 address into a string. * * @param address - an IPv4 address */ function iPv4Serializer(address) { /** * 1. Let output be the empty string. * 2. Let n be the value of address. * 3. For each i in the range 1 to 4, inclusive: * 3.1. Prepend n % 256, serialized, to output. * 3.2. If i is not 4, then prepend U+002E (.) to output. * 3.3. Set n to floor(n / 256). * 4. Return output. */ var output = ""; var n = address; for (var i = 1; i <= 4; i++) { output = (n % 256).toString() + output; if (i !== 4) { output = '.' + output; } n = Math.floor(n / 256); } return output; } exports.iPv4Serializer = iPv4Serializer; /** * Serializes an IPv6 address into a string. * * @param address - an IPv6 address represented as a list of eight numbers */ function iPv6Serializer(address) { /** * 1. Let output be the empty string. * 2. Let compress be an index to the first IPv6 piece in the first longest * sequences of address’s IPv6 pieces that are 0. * In 0:f:0:0:f:f:0:0 it would point to the second 0. * 3. If there is no sequence of address’s IPv6 pieces that are 0 that is * longer than 1, then set compress to null. */ var output = ""; var compress = null; var lastIndex = -1; var count = 0; var lastCount = 0; for (var i = 0; i < 8; i++) { if (address[i] !== 0) continue; count = 1; for (var j = i + 1; j < 8; j++) { if (address[j] !== 0) break; count++; continue; } if (count > lastCount) { lastCount = count; lastIndex = i; } } if (lastCount > 1) compress = lastIndex; /** * 4. Let ignore0 be false. * 5. For each pieceIndex in the range 0 to 7, inclusive: */ var ignore0 = false; for (var pieceIndex = 0; pieceIndex < 8; pieceIndex++) { /** * 5.1. If ignore0 is true and address[pieceIndex] is 0, then continue. * 5.2. Otherwise, if ignore0 is true, set ignore0 to false. * 5.3. If compress is pieceIndex, then: */ if (ignore0 && address[pieceIndex] === 0) continue; if (ignore0) ignore0 = false; if (compress === pieceIndex) { /** * 5.3.1. Let separator be "::" if pieceIndex is 0, and U+003A (:) otherwise. * 5.3.2. Append separator to output. * 5.3.3. Set ignore0 to true and continue. */ output += (pieceIndex === 0 ? '::' : ':'); ignore0 = true; continue; } /** * 5.4. Append address[pieceIndex], represented as the shortest possible * lowercase hexadecimal number, to output. * 5.5. If pieceIndex is not 7, then append U+003A (:) to output. */ output += address[pieceIndex].toString(16); if (pieceIndex !== 7) output += ':'; } /** * 6. Return output. */ return output; } exports.iPv6Serializer = iPv6Serializer; /** * Parses an URL string. * * @param input - input string * @param baseURL - base URL * @param encodingOverride - encoding override */ function urlParser(input, baseURL, encodingOverride) { /** * 1. Let url be the result of running the basic URL parser on input with * base, and encoding override as provided. * 2. If url is failure, return failure. * 3. If url’s scheme is not "blob", return url. * 4. Set url’s blob URL entry to the result of resolving the blob URL url, * if that did not return failure, and null otherwise. * 5. Return url. */ var url = basicURLParser(input, baseURL, encodingOverride); if (url === null) return null; if (url.scheme !== "blob") return url; var entry = resolveABlobURL(url); if (entry !== null) { url._blobURLEntry = entry; } else { url._blobURLEntry = null; } return url; } exports.urlParser = urlParser; /** * Parses an URL string. * * @param input - input string * @param baseURL - base URL * @param encodingOverride - encoding override */ function basicURLParser(input, baseURL, encodingOverride, url, stateOverride) { var e_2, _a, e_3, _b; /** * 1. If url is not given: * 1.1. Set url to a new URL. * 1.2. If input contains any leading or trailing C0 control or space, * validation error. * 1.3. Remove any leading and trailing C0 control or space from input. */ if (url === undefined) { url = newURL(); // leading var leadingControlOrSpace = /^[\u0000-\u001F\u0020]+/; var trailingControlOrSpace = /[\u0000-\u001F\u0020]+$/; if (leadingControlOrSpace.test(input) || trailingControlOrSpace.test(input)) { validationError("Input string contains leading or trailing control characters or space."); } input = input.replace(leadingControlOrSpace, ''); input = input.replace(trailingControlOrSpace, ''); } /** * 2. If input contains any ASCII tab or newline, validation error. * 3. Remove all ASCII tab or newline from input. */ var tabOrNewline = /[\u0009\u000A\u000D]/g; if (tabOrNewline.test(input)) { validationError("Input string contains tab or newline characters."); } input = input.replace(tabOrNewline, ''); /** * 4. Let state be state override if given, or scheme start state otherwise. * 5. If base is not given, set it to null. * 6. Let encoding be UTF-8. * 7. If encoding override is given, set encoding to the result of getting * an output encoding from encoding override. */ var state = (stateOverride === undefined ? interfaces_1.ParserState.SchemeStart : stateOverride); if (baseURL === undefined) baseURL = null; var encoding = (encodingOverride === undefined || encodingOverride === "replacement" || encodingOverride === "UTF-16BE" || encodingOverride === "UTF-16LE" ? "UTF-8" : encodingOverride); /** * 8. Let buffer be the empty string. * 9. Let the @ flag, [] flag, and passwordTokenSeenFlag be unset. * 10. Let pointer be a pointer to first code point in input. */ var buffer = ""; var atFlag = false; var arrayFlag = false; var passwordTokenSeenFlag = false; var EOF = ""; var walker = new util_1.StringWalker(input); /** * 11. Keep running the following state machine by switching on state. If * after a run pointer points to the EOF code point, go to the next step. * Otherwise, increase pointer by one and continue with the state machine. */ while (true) { switch (state) { case interfaces_1.ParserState.SchemeStart: /** * 1. If c is an ASCII alpha, append c, lowercased, to buffer, and set * state to scheme state. * 2. Otherwise, if state override is not given, set state to no scheme * state, and decrease pointer by one. * 3. Otherwise, validation error, return failure. */ if (infra_1.codePoint.ASCIIAlpha.test(walker.c())) { buffer += walker.c().toLowerCase(); state = interfaces_1.ParserState.Scheme; } else if (stateOverride === undefined) { state = interfaces_1.ParserState.NoScheme; walker.pointer--; } else { validationError("Invalid scheme start character."); return null; } break; case interfaces_1.ParserState.Scheme: /** * 1. If c is an ASCII alphanumeric, U+002B (+), U+002D (-), or U+002E * (.), append c, lowercased, to buffer. */ if (infra_1.codePoint.ASCIIAlphanumeric.test(walker.c()) || walker.c() === '+' || walker.c() === '-' || walker.c() === '.') { buffer += walker.c().toLowerCase(); } else if (walker.c() === ':') { /** * 2. Otherwise, if c is U+003A (:), then: * 2.1. If state override is given, then: * 2.1.1. If url’s scheme is a special scheme and buffer is not a * special scheme, then return. * 2.1.2. If url’s scheme is not a special scheme and buffer is a * special scheme, then return. * 2.1.3. If url includes credentials or has a non-null port, and * buffer is "file", then return. * 2.1.4. If url’s scheme is "file" and its host is an empty host or * null, then return. */ if (stateOverride !== undefined) { if (isSpecialScheme(url.scheme) && !isSpecialScheme(buffer)) return url; if (!isSpecialScheme(url.scheme) && isSpecialScheme(buffer)) return url; if ((includesCredentials(url) || url.port !== null) && buffer === "file") return url; if (url.scheme === "file" && (url.host === "" || url.host === null)) return url; } /** * 2.2. Set url’s scheme to buffer. */ url.scheme = buffer; /** * 2.3. If state override is given, then: * 2.3.1. If url’s port is url’s scheme’s default port, then set * url’s port to null. * 2.3.2. Return. */ if (stateOverride !== undefined) { if (url.port === defaultPort(url.scheme)) { url.port = null; } return url; } /** * 2.4. Set buffer to the empty string. */ buffer = ""; if (url.scheme === "file") { /** * 2.5. If url’s scheme is "file", then: * 2.5.1. If remaining does not start with "//", validation error. * 2.5.2. Set state to file state. */ if (!walker.remaining().startsWith("//")) { validationError("Invalid file URL scheme, '//' expected."); } state = interfaces_1.ParserState.File; } else if (isSpecial(url) && baseURL !== null && baseURL.scheme === url.scheme) { /** * 2.6. Otherwise, if url is special, base is non-null, and base’s * scheme is equal to url’s scheme, set state to special relative * or authority state. */ state = interfaces_1.ParserState.SpecialRelativeOrAuthority; } else if (isSpecial(url)) { /** * 2.7. Otherwise, if url is special, set state to special * authority slashes state. */ state = interfaces_1.ParserState.SpecialAuthoritySlashes; } else if (walker.remaining().startsWith("/")) { /** * 2.8. Otherwise, if remaining starts with an U+002F (/), set state * to path or authority state and increase pointer by one. */ state = interfaces_1.ParserState.PathOrAuthority; walker.pointer++; } else { /** * 2.9. Otherwise, set url’s cannot-be-a-base-URL flag, append an * empty string to url’s path, and set state to * cannot-be-a-base-URL path state. */ url._cannotBeABaseURLFlag = true; url.path.push(""); state = interfaces_1.ParserState.CannotBeABaseURLPath; } } else if (stateOverride === undefined) { /** * 3. Otherwise, if state override is not given, set buffer to the * empty string, state to no scheme state, and start over (from the * first code point in input). */ buffer = ""; state = interfaces_1.ParserState.NoScheme; walker.pointer = 0; continue; } else { /** * 4. Otherwise, validation error, return failure. */ validationError("Invalid input string."); return null; } break; case interfaces_1.ParserState.NoScheme: /** * 1. If base is null, or base’s cannot-be-a-base-URL flag is set * and c is not U+0023 (#), validation error, return failure. * 2. Otherwise, if base’s cannot-be-a-base-URL flag is set and * c is U+0023 (#), set url’s scheme to base’s scheme, url’s path to * a copy of base’s path, url’s query to base’s query, url’s * fragment to the empty string, set url’s cannot-be-a-base-URL * flag, and set state to fragment state. * 3. Otherwise, if base’s scheme is not "file", set state to * relative state and decrease pointer by one. * 4. Otherwise, set state to file state and decrease pointer by one. */ if (baseURL === null || (baseURL._cannotBeABaseURLFlag && walker.c() !== '#')) { validationError("Invalid input string."); return null; } else if (baseURL._cannotBeABaseURLFlag && walker.c() === '#') { url.scheme = baseURL.scheme; url.path = infra_1.list.clone(baseURL.path); url.query = baseURL.query; url.fragment = ""; url._cannotBeABaseURLFlag = true; state = interfaces_1.ParserState.Fragment; } else if (baseURL.scheme !== "file") { state = interfaces_1.ParserState.Relative; walker.pointer--; } else { state = interfaces_1.ParserState.File; walker.pointer--; } break; case interfaces_1.ParserState.SpecialRelativeOrAuthority: /** * If c is U+002F (/) and remaining starts with U+002F (/), then set * state to special authority ignore slashes state and increase * pointer by one. * Otherwise, validation error, set state to relative state and * decrease pointer by one. */ if (walker.c() === '/' && walker.remaining().startsWith('/')) { state = interfaces_1.ParserState.SpecialAuthorityIgnoreSlashes; walker.pointer++; } else { validationError("Invalid input string."); state = interfaces_1.ParserState.Relative; walker.pointer--; } break; case interfaces_1.ParserState.PathOrAuthority: /** * If c is U+002F (/), then set state to authority state. * Otherwise, set state to path state, and decrease pointer by one. */ if (walker.c() === '/') { state = interfaces_1.ParserState.Authority; } else { state = interfaces_1.ParserState.Path; walker.pointer--; } break; case interfaces_1.ParserState.Relative: /** * Set url’s scheme to base’s scheme, and then, switching on c: */ if (baseURL === null) { throw new Error("Invalid parser state. Base URL is null."); } url.scheme = baseURL.scheme; switch (walker.c()) { case EOF: // EOF /** * Set url’s username to base’s username, url’s password to base’s * password, url’s host to base’s host, url’s port to base’s port, * url’s path to a copy of base’s path, and url’s query to base’s * query. */ url.username = baseURL.username; url.password = baseURL.password; url.host = baseURL.host; url.port = baseURL.port; url.path = infra_1.list.clone(baseURL.path); url.query = baseURL.query; break; case '/': /** * Set state to relative slash state. */ state = interfaces_1.ParserState.RelativeSlash; break; case '?': /** * Set url’s username to base’s username, url’s password to base’s * password, url’s host to base’s host, url’s port to base’s port, * url’s path to a copy of base’s path, url’s query to the empty * string, and state to query state. */ url.username = baseURL.username; url.password = baseURL.password; url.host = baseURL.host; url.port = baseURL.port; url.path = infra_1.list.clone(baseURL.path); url.query = ""; state = interfaces_1.ParserState.Query; break; case '#': /** * Set url’s username to base’s username, url’s password to base’s * password, url’s host to base’s host, url’s port to base’s port, * url’s path to a copy of base’s path, url’s query to base’s * query, url’s fragment to the empty string, and state to * fragment state. */ url.username = baseURL.username; url.password = baseURL.password; url.host = baseURL.host; url.port = baseURL.port; url.path = infra_1.list.clone(baseURL.path); url.query = baseURL.query; url.fragment = ""; state = interfaces_1.ParserState.Fragment; break; default: /** * If url is special and c is U+005C (\), validation error, * set state to relative slash state. * Otherwise, run these steps: * 1. Set url’s username to base’s username, url’s password to * base’s password, url’s host to base’s host, url’s port to * base’s port, url’s path to a copy of base’s path, and then * remove url’s path’s last item, if any. * 2. Set state to path state, and decrease pointer by one. */ if (isSpecial(url) && walker.c() === '\\') { validationError("Invalid input string."); state = interfaces_1.ParserState.RelativeSlash; } else { url.username = baseURL.username; url.password = baseURL.password; url.host = baseURL.host; url.port = baseURL.port; url.path = infra_1.list.clone(baseURL.path); if (url.path.length !== 0) url.path.splice(url.path.length - 1, 1); state = interfaces_1.ParserState.Path; walker.pointer--; } break; } break; case interfaces_1.ParserState.RelativeSlash: /** * 1. If url is special and c is U+002F (/) or U+005C (\), then: * 1.1. If c is U+005C (\), validation error. * 1.2. Set state to special authority ignore slashes state. * 2. Otherwise, if c is U+002F (/), then set state to authority state. * 3. Otherwise, set url’s username to base’s username, url’s password * to base’s password, url’s host to base’s host, url’s port to base’s * port, state to path state, and then, decrease pointer by one. */ if (isSpecial(url) && (walker.c() === '/' || walker.c() === '\\')) { if (walker.c() === '\\') { validationError("Invalid input string."); } state = interfaces_1.ParserState.SpecialAuthorityIgnoreSlashes; } else if (walker.c() === '/') { state = interfaces_1.ParserState.Authority; } else { if (baseURL === null) { throw new Error("Invalid parser state. Base URL is null."); } url.username = baseURL.username; url.password = baseURL.password; url.host = baseURL.host; url.port = baseURL.port; state = interfaces_1.ParserState.Path; walker.pointer--; } break; case interfaces_1.ParserState.SpecialAuthoritySlashes: /** * If c is U+002F (/) and remaining starts with U+002F (/), then set * state to special authority ignore slashes state and increase * pointer by one. * Otherwise, validation error, set state to special authority ignore * slashes state, and decrease pointer by one. */ if (walker.c() === '/' && walker.remaining().startsWith('/')) { state = interfaces_1.ParserState.SpecialAuthorityIgnoreSlashes; walker.pointer++; } else { validationError("Expected '//'."); state = interfaces_1.ParserState.SpecialAuthorityIgnoreSlashes; walker.pointer--; } break; case interfaces_1.ParserState.SpecialAuthorityIgnoreSlashes: /** * If c is neither U+002F (/) nor U+005C (\), then set state to * authority state and decrease pointer by one. * Otherwise, validation error. */ if (walker.c() !== '/' && walker.c() !== '\\') { state = interfaces_1.ParserState.Authority; walker.pointer--; } else { validationError("Unexpected '/' or '\\'."); } break; case interfaces_1.ParserState.Authority: /** * 1. If c is U+0040 (@), then: */ if (walker.c() === '@') { /** * 1.1. Validation error. * 1.2. If the @ flag is set, prepend "%40" to buffer. * 1.3. Set the @ flag. * 1.4. For each codePoint in buffer: */ validationError("Unexpected '@'."); if (atFlag) buffer = '%40' + buffer; atFlag = true; try { for (var buffer_1 = (e_2 = void 0, __values(buffer)), buffer_1_1 = buffer_1.next(); !buffer_1_1.done; buffer_1_1 = buffer_1.next()) { var codePoint = buffer_1_1.value; /** * 1.4.1. If codePoint is U+003A (:) and passwordTokenSeenFlag is * unset, then set passwordTokenSeenFlag and continue. * 1.4.2. Let encodedCodePoints be the result of running UTF-8 * percent encode codePoint using the userinfo percent-encode set. * 1.4.3. If passwordTokenSeenFlag is set, then append * encodedCodePoints to url’s password. * 1.4.4. Otherwise, append encodedCodePoints to url’s username. */ if (codePoint === ':' && !passwordTokenSeenFlag) { passwordTokenSeenFlag = true; continue; } var encodedCodePoints = utf8PercentEncode(codePoint, _userInfoPercentEncodeSet); if (passwordTokenSeenFlag) { url.password += encodedCodePoints; } else { url.username += encodedCodePoints; } } } catch (e_2_1) { e_2 = { error: e_2_1 }; } finally { try { if (buffer_1_1 && !buffer_1_1.done && (_a = buffer_1.return)) _a.call(buffer_1); } finally { if (e_2) throw e_2.error; } } /** * 1.5. Set buffer to the empty string. */ buffer = ""; } else if (walker.c() === EOF || walker.c() === '/' || walker.c() === '?' || walker.c() === '#' || (isSpecial(url) && walker.c() === '\\')) { /** * 2. Otherwise, if one of the following is true * - c is the EOF code point, U+002F (/), U+003F (?), or U+0023 (#) * - url is special and c is U+005C (\) * then: * 2.1. If @ flag is set and buffer is the empty string, validation * error, return failure. * 2.2. Decrease pointer by the number of code points in buffer plus * one, set buffer to the empty string, and set state to host state. */ if (atFlag && buffer === "") { validationError("Invalid input string."); return null; } walker.pointer -= (buffer.length + 1); buffer = ""; state = interfaces_1.ParserState.Host; } else { /** * 3. Otherwise, append c to buffer. */ buffer += walker.c(); } break; case interfaces_1.ParserState.Host: case interfaces_1.ParserState.Hostname: if (stateOverride !== undefined && url.scheme === "file") { /** * 1. If state override is given and url’s scheme is "file", then * decrease pointer by one and set state to file host state. */ walker.pointer--; state = interfaces_1.ParserState.FileHost; } else if (walker.c() === ':' && !arrayFlag) { /** * 2. Otherwise, if c is U+003A (:) and the [] flag is unset, then: * 2.1. If buffer is the empty string, validation error, return * failure. * 2.2. Let host be the result of host parsing buffer with url is * not special. * 2.3. If host is failure, then return failure. * 2.4. Set url’s host to host, buffer to the empty string, and * state to port state. * 2.5. If state override is given and state override is hostname * state, then return. */ if (buffer === "") { validationError("Invalid input string."); return null; } var host = hostParser(buffer, !isSpecial(url)); if (host === null) return null; url.host = host; buffer = ""; state = interfaces_1.ParserState.Port; if (stateOverride === interfaces_1.ParserState.Hostname) return url; } else if (walker.c() === EOF || walker.c() === '/' || walker.c() === '?' || walker.c() === '#' || (isSpecial(url) && walker.c() === '\\')) { /** * 3. Otherwise, if one of the following is true * - c is the EOF code point, U+002F (/), U+003F (?), or U+0023 (#) * - url is special and c is U+005C (\) * then decrease pointer by one, and then: * 3.1. If url is special and buffer is the empty string, validation * error, return failure. * 3.2. Otherwise, if state override is given, buffer is the empty * string, and either url includes credentials or url’s port is * non-null, validation error, return. * 3.3. Let host be the result of host parsing buffer with url is * not special. * 3.4. If host is failure, then return failure. * 3.5. Set url’s host to host, buffer to the empty string, and * state to path start state. * 3.6. If state override is given, then return. */ walker.pointer--; if (isSpecial(url) && buffer === "") { validationError("Invalid input string."); return null; } else if (stateOverride !== undefined && buffer === "" && (includesCredentials(url) || url.port !== null)) { validationError("Invalid input string."); return url; } var host = hostParser(buffer, !isSpecial(url)); if (host === null) return null; url.host = host; buffer = ""; state = interfaces_1.ParserState.PathStart; if (stateOverride !== undefined) return url; } else { /** * 4. Otherwise: * 4.1. If c is U+005B ([), then set the [] flag. * 4.2. If c is U+005D (]), then unset the [] flag. * 4.3. Append c to buffer. */ if (walker.c() === '[') arrayFlag = true; if (walker.c() === ']') arrayFlag = false; buffer += walker.c(); } break; case interfaces_1.ParserState.Port: if (infra_1.codePoint.ASCIIDigit.test(walker.c())) { /** * 1. If c is an ASCII digit, append c to buffer. */ buffer += walker.c(); } else if (walker.c() === EOF || walker.c() === '/' || walker.c() === '?' || walker.c() === '#' || (isSpecial(url) && walker.c() === '\\') || stateOverride) { /** * 2. Otherwise, if one of the following is true * - c is the EOF code point, U+002F (/), U+003F (?), or U+0023 (#) * - url is special and c is U+005C (\) * - state override is given * then: */ if (buffer !== "") { /** * 2.1. If buffer is not the empty string, then: * 2.1.1. Let port be the mathematical integer value that is * represented by buffer in radix-10 using ASCII digits for digits * with values 0 through 9. * 2.1.2. If port is greater than 2**16 − 1, validation error, * return failure. * 2.1.3. Set url’s port to null, if port is url’s scheme’s default * port, and to port otherwise. * 2.1.4. Set buffer to the empty string. */ if (buffer !== "") { var port = parseInt(buffer, 10); if (port > Math.pow(2, 16) - 1) { validationError("Invalid port number."); return null; } url.port = (port === defaultPort(url.scheme) ? null : port); buffer = ""; } } /** * 2.2. If state override is given, then return. * 2.3. Set state to path start state, and decrease pointer by one. */ if (stateOverride !== undefined) { return url; } state = interfaces_1.ParserState.PathStart; walker.pointer--; } else { /** * 3. Otherwise, validation error, return failure. */ validationError("Invalid input string."); return null; } break; case interfaces_1.ParserState.File: /** * 1. Set url’s scheme to "file". */ url.scheme = "file"; if (walker.c() === '/' || walker.c() === '\\') { /** * 2. If c is U+002F (/) or U+005C (\), then: * 2.1. If c is U+005C (\), validation error. * 2.2. Set state to file slash state. */ if (walker.c() === '\\') { validationError("Invalid input string."); } state = interfaces_1.ParserState.FileSlash; } else if (baseURL !== null && baseURL.scheme === "file") { /** * 3. Otherwise, if base is non-null and base’s scheme is "file", * switch on c: */ switch (walker.c()) { case EOF: /** * Set url’s host to base’s host, url’s path to a copy of base’s * path, and url’s query to base’s query. */ url.host = baseURL.host; url.path = infra_1.list.clone(baseURL.path); url.query = baseURL.query; break; case '?': /** * Set url’s host to base’s host, url’s path to a copy of base’s * path, url’s query to the empty string, and state to query * state. */ url.host = baseURL.host; url.path = infra_1.list.clone(baseURL.path); url.query = ""; state = interfaces_1.ParserState.Query; break; case '#': /** * Set url’s host to base’s host, url’s path to a copy of base’s * path, url’s query to base’s query, url’s fragment to the * empty string, and state to fragment state. */ url.host = baseURL.host; url.path = infra_1.list.clone(baseURL.path); url.query = baseURL.query; url.fragment = ""; state = interfaces_1.ParserState.Fragment; break; default: /** * 1. If the substring from pointer in input does not start * with a Windows drive letter, then set url’s host to base’s * host, url’s path to a copy of base’s path, and then shorten * url’s path. * _Note:_ is a (platform-independent) Windows drive letter * quirk. * 2. Otherwise, validation error. * 3. Set state to path state, and decrease pointer by one. */ if (!startsWithAWindowsDriveLetter(walker.substring())) { url.host = baseURL.host; url.path = infra_1.list.clone(baseURL.path); shorten(url); } else { validationError("Unexpected windows drive letter in input string."); } state = interfaces_1.ParserState.Path; walker.pointer--; break; } } else { /** * 4. Otherwise, set state to path state, and decrease pointer by * one. */ state = interfaces_1.ParserState.Path; walker.pointer--; } break; case interfaces_1.ParserState.FileSlash: if (walker.c() === '/' || walker.c() === '\\') { /** * 1. If c is U+002F (/) or U+005C (\), then: * 1.1. If c is U+005C (\), validation error. * 1.2. Set state to file host state. */ if (walker.c() === '\\') { validationError("Invalid input string."); } state = interfaces_1.ParserState.FileHost; } else { /** * 2. Otherwise: * 2.1. If base is non-null, base’s scheme is "file", and the * substring from pointer in input does not start with a Windows * drive letter, then: * 2.1.1. If base’s path[0] is a normalized Windows drive letter, * then append base’s path[0] to url’s path. * _Note:_ is a (platform-independent) Windows drive letter * quirk. Both url’s and base’s host are null under these conditions * and therefore not copied. * 2.1.2. Otherwise, set url’s host to base’s host. * 2.2. Set state to path state, and decrease pointer by one. */ if (baseURL !== null && baseURL.scheme === "file" && !startsWithAWindowsDriveLetter(walker.substring())) { if (isNormalizedWindowsDriveLetter(baseURL.path[0])) { url.path.push(baseURL.path[0]); } else { url.host = baseURL.host; } } state = interfaces_1.ParserState.Path; walker.pointer--; } break; case interfaces_1.ParserState.FileHost: if (walker.c() === EOF || walker.c() === '/' || walker.c() === '\\' || walker.c() === '?' || walker.c() === '#') { /** * 1. If c is the EOF code point, U+002F (/), U+005C (\), U+003F (?), * or U+0023 (#), then decrease pointer by one and then: */ walker.pointer--; if (stateOverride === undefined && isWindowsDriveLetter(buffer)) { /** * 1.1. If state override is not given and buffer is a Windows drive * letter, validation error, set state to path state. * _Note:_ is a (platform-independent) Windows drive letter * quirk. buffer is not reset here and instead used in the path state. */ validationError("Unexpected windows drive letter in input string."); state = interfaces_1.ParserState.Path; } else if (buffer === "") { /** * 1.2. Otherwise, if buffer is the empty string, then: * 1.2.1. Set url’s host to the empty string. * 1.2.2. If state override is given, then return. * 1.2.3. Set state to path start state. */ url.host = ""; if (stateOverride !== undefined) return url; state = interfaces_1.ParserState.PathStart; } else { /** * 1.3. Otherwise, run these steps: * 1.3.1. Let host be the result of host parsing buffer with url * is not special. * 1.3.2. If host is failure, then return failure. * 1.3.3. If host is "localhost", then set host to the empty * string. * 1.3.4. Set url’s host to host. * 1.3.5. If state override is given, then return. * 1.3.6. Set buffer to the empty string and state to path start * state. */ var host = hostParser(buffer, !isSpecial(url)); if (host === null) return null; if (host === "localhost") host = ""; url.host = host; if (stateOverride !== undefined) return url; buffer = ""; state = interfaces_1.ParserState.PathStart; } } else { /** * 2. Otherwise, append c to buffer. */ buffer += walker.c(); } break; case interfaces_1.ParserState.PathStart: if (isSpecial(url)) { /** * 1. If url is special, then: * 1.1. If c is U+005C (\), validation error. * 1.2. Set state to path state. * 1.3. If c is neither U+002F (/) nor U+005C (\), then decrease * pointer by one. */ if (walker.c() === '\\') { validationError("Invalid input string."); } state = interfaces_1.ParserState.Path; if (walker.c() !== '/' && walker.c() !== '\\') walker.pointer--; } else if (stateOverride === undefined && walker.c() === '?') { /** * 2. Otherwise, if state override is not given and c is U+003F (?), * set url’s query to the empty string and state to query state. */ url.query = ""; state = interfaces_1.ParserState.Query; } else if (stateOverride === undefined && walker.c() === '#') { /** * 3. Otherwise, if state override is not given and c is U+0023 (#), * set url’s fragment to the empty string and state to fragment * state. */ url.fragment = ""; state = interfaces_1.ParserState.Fragment; } else if (walker.c() !== EOF) { /** * 4. Otherwise, if c is not the EOF code point: * 4.1. Set state to path state. * 4.2. If c is not U+002F (/), then decrease pointer by one. */ state = interfaces_1.ParserState.Path; if (walker.c() !== '/') walker.pointer--; } break; case interfaces_1.ParserState.Path: if ((walker.c() === EOF || walker.c() === '/') || (isSpecial(url) && walker.c() === '\\') || (stateOverride === undefined && (walker.c() === '?' || walker.c() === '#'))) { /** * 1. If one of the following is true * - c is the EOF code point or U+002F (/) * - url is special and c is U+005C (\) * - state override is not given and c is U+003F (?) or U+0023 (#) * then: */ if (isSpecial(url) && walker.c() === '\\') { /** * 1.1 If url is special and c is U+005C (\), validation error. */ validationError("Invalid input string."); } if (isDoubleDotPathSegment(buffer)) { /** * 1.2. If buffer is a double-dot path segment, shorten url’s path, * and then if neither c is U+002F (/), nor url is special and c is * U+005C (\), append the empty string to url’s path. */ shorten(url); if (walker.c() !== '/' && !(isSpecial(url) && walker.c() === '\\')) { url.path.push(""); } } else if (isSingleDotPathSegment(buffer) && walker.c() !== '/' && !(isSpecial(url) && walker.c() === '\\')) { /** * 1.3. Otherwise, if buffer is a single-dot path segment and if * neither c is U+002F (/), nor url is special and c is U+005C (\), * append the empty string to url’s path. */ url.path.push(""); } else if (!isSingleDotPathSegment(buffer)) { /** * 1.4. Otherwise, if buffer is not a single-dot path segment, then: */ if (url.scheme === "file" && url.path.length === 0 && isWindowsDriveLetter(buffer)) { /** * 1.4.1. If url’s scheme is "file", url’s path is empty, and * buffer is a Windows drive letter, then: * 1.4.1.1. If url’s host is neither the empty string nor null, * validation error, set url’s host to the empty string. * 1.4.1.2. Replace the second code point in buffer with U+003A (:). * _Note:_ is a (platform-independent) Windows drive letter quirk. */ if (url.host !== null && url.host !== "") { validationError("Invalid input string."); url.host = ""; } var bufferCodePoints = Array.from(buffer); buffer = bufferCodePoints.slice(0, 1) + ':' + bufferCodePoints.slice(2); } /** * 1.4.2. Append buffer to url’s path. */ url.path.push(buffer); } /** * 1.5. Set buffer to the empty string. */ buffer = ""; /** * 1.6. If url’s scheme is "file" and c is the EOF code point, * U+003F (?), or U+0023 (#), then while url’s path’s size is * greater than 1 and url’s path[0] is the empty string, validation * error, remove the first item from url’s path. */ if (url.scheme === "file" && (walker.c() === EOF || walker.c() === '?' || walker.c() === '#')) { while (url.path.length > 1 && url.path[0] === "") { validationError("Invalid input string."); url.path.splice(0, 1); } } /** * 1.7. If c is U+003F (?), then set url’s query to the empty string * and state to query state. * 1.8. If c is U+0023 (#), then set url’s fragment to the empty * string and state to fragment state. */ if (walker.c() === '?') { url.query = ""; state = interfaces_1.ParserState.Query; } if (walker.c() === '#') { url.fragment = ""; state = interfaces_1.ParserState.Fragment; } } else { /** * 2. Otherwise, run these steps: * 2.1. If c is not a URL code point and not U+0025 (%), validation * error. * 2.2. If c is U+0025 (%) and remaining does not start with two * ASCII hex digits, validation error. * 2.3. UTF-8 percent encode c using the path percent-encode set, * and append the result to buffer. */ if (!_urlCodePoints.test(walker.c()) && walker.c() !== '%') { validationError("Character is not a URL code point or a percent encoded character."); } if (walker.c() === '%' && !/^[0-9a-fA-F][0-9a-fA-F]/.test(walker.remaining())) { validationError("Percent encoded character must be followed by two hex digits."); } buffer += utf8PercentEncode(walker.c(), _pathPercentEncodeSet); } break; case interfaces_1.ParserState.CannotBeABaseURLPath: /** * 1. If c is U+003F (?), then set url’s query to the empty string and * state to query state. * 2. Otherwise, if c is U+0023 (#), then set url’s fragment to the * empty string and state to fragment state. * 3. Otherwise: * 3.1. If c is not the EOF code point, not a URL code point, and not * U+0025 (%), validation error. * 3.2. If c is U+0025 (%) and remaining does not start with two ASCII * hex digits, validation error. * 3.3. If c is not the EOF code point, UTF-8 percent encode c using * the C0 control percent-encode set, and append the result to url’s * path[0]. */ if (walker.c() === '?') { url.query = ""; state = interfaces_1.ParserState.Query; } else if (walker.c() === '#') { url.fragment = ""; state = interfaces_1.ParserState.Fragment; } else { if (walker.c() !== EOF && !_urlCodePoints.test(walker.c()) && walker.c() !== '%') { validationError("Character is not a URL code point or a percent encoded character."); } if (walker.c() === '%' && !/^[0-9a-fA-F][0-9a-fA-F]/.test(walker.remaining())) { validationError("Percent encoded character must be followed by two hex digits."); } if (walker.c() !== EOF) { url.path[0] += utf8PercentEncode(walker.c(), _c0ControlPercentEncodeSet); } } break; case interfaces_1.ParserState.Query: /** * 1. If encoding is not UTF-8 and one of the following is true * - url is not special * - url’s scheme is "ws" or "wss" * then set encoding to UTF-8. */ if (encoding !== "UTF-8" && (!isSpecial(url) || url.scheme === "ws" || url.scheme === "wss")) { encoding = "UTF-8"; } if (stateOverride === undefined && walker.c() === '#') { /** * 2. If state override is not given and c is U+0023 (#), then set * url’s fragment to the empty string and state to fragment state. */ url.fragment = ""; state = interfaces_1.ParserState.Fragment; } else if (walker.c() !== EOF) { /** * 3. Otherwise, if c is not the EOF code point: * 3.1. If c is not a URL code point and not U+0025 (%), validation * error. */ if (!_urlCodePoints.test(walker.c()) && walker.c() !== '%') { validationError("Character is not a URL code point or a percent encoded character."); } /** * 3.2. If c is U+0025 (%) and remaining does not start with two * ASCII hex digits, validation error. */ if (walker.c() === '%' && !/^[0-9a-fA-F][0-9a-fA-F]/.test(walker.remaining())) { validationError("Percent encoded character must be followed by two hex digits."); } /** * 3.3. Let bytes be the result of encoding c using encoding. */ if (encoding.toUpperCase() !== "UTF-8") { throw new Error("Only UTF-8 encoding is supported."); } var bytes = util_1.utf8Encode(walker.c()); /** * 3.4. If bytes starts with `&#` and ends with 0x3B (;), then: */ if (bytes.length >= 3 && bytes[0] === 38 && bytes[1] === 35 && bytes[bytes.length - 1] === 59) { /** * 3.4.1. Replace `&#` at the start of bytes with `%26%23`. * 3.4.2. Replace 0x3B (;) at the end of bytes with `%3B`. * 3.4.4. Append bytes, isomorphic decoded, to url’s query. * _Note:_ can happen when encoding code points using a * non-UTF-8 encoding. */ bytes = bytes.subarray(2, bytes.length - 1); url.query += "%26%23" + infra_1.byteSequence.isomorphicDecode(bytes) + "%3B"; } else { try { /** * 3.5. Otherwise, for each byte in bytes: * 3.5.1. If one of the following is true * - byte is less than 0x21 (!) * - byte is greater than 0x7E (~) * - byte is 0x22 ("), 0x23 (#), 0x3C (<), or 0x3E (>) * - byte is 0x27 (') and url is special * then append byte, percent encoded, to url’s query. * 3.5.2. Otherwise, append a code point whose value is byte to * url’s query. */ for (var bytes_1 = (e_3 = void 0, __values(bytes)), bytes_1_1 = bytes_1.next(); !bytes_1_1.done; bytes_1_1 = bytes_1.next()) { var byte = bytes_1_1.value; if (byte < 0x21 || byte > 0x7E || byte === 0x22 || byte === 0x23 || byte === 0x3C || byte === 0x3E || (byte === 0x27 && isSpecial(url))) { url.query += percentEncode(byte); } else { url.query += String.fromCharCode(byte); } } } catch (e_3_1) { e_3 = { error: e_3_1 }; } finally { try { if (bytes_1_1 && !bytes_1_1.done && (_b = bytes_1.return)) _b.call(bytes_1); } finally { if (e_3) throw e_3.error; } } } } break; case interfaces_1.ParserState.Fragment: /** * Switching on c: * - The EOF code point * Do nothing. * - U+0000 NULL * Validation error. * - Otherwise * 1. If c is not a URL code point and not U+0025 (%), validation * error. * 2. If c is U+0025 (%) and remaining does not start with two ASCII * hex digits, validation error. * 3. UTF-8 percent encode c using the fragment percent-encode set and * append the result to url’s fragment. */ if (walker.c() === EOF) { // } else if (walker.c() === "\u0000") { validationError("NULL character in input string."); } else { if (!_urlCodePoints.test(walker.c()) && walker.c() !== '%') { validationError("Unexpected character in fragment string."); } if (walker.c() === '%' && !/^[A-Za-z0-9][A-Za-z0-9]/.test(walker.remaining())) { validationError("Unexpected character in fragment string."); } url.fragment += utf8PercentEncode(walker.c(), _fragmentPercentEncodeSet); } break; } if (walker.eof) break; else walker.pointer++; } /** * 12. Return url. */ return url; } exports.basicURLParser = basicURLParser; /** * Sets a URL's username. * * @param url - a URL * @param username - username string */ function setTheUsername(url, username) { var e_4, _a; /** * 1. Set url’s username to the empty string. * 2. For each code point in username, UTF-8 percent encode it using the * userinfo percent-encode set, and append the result to url’s username. */ var result = ""; try { for (var username_1 = __values(username), username_1_1 = username_1.next(); !username_1_1.done; username_1_1 = username_1.next()) { var codePoint = username_1_1.value; result += utf8PercentEncode(codePoint, _userInfoPercentEncodeSet); } } catch (e_4_1) { e_4 = { error: e_4_1 }; } finally { try { if (username_1_1 && !username_1_1.done && (_a = username_1.return)) _a.call(username_1); } finally { if (e_4) throw e_4.error; } } url.username = result; } exports.setTheUsername = setTheUsername; /** * Sets a URL's password. * * @param url - a URL * @param username - password string */ function setThePassword(url, password) { var e_5, _a; /** * 1. Set url’s password to the empty string. * 2. For each code point in password, UTF-8 percent encode it using the * userinfo percent-encode set, and append the result to url’s password. */ var result = ""; try { for (var password_1 = __values(password), password_1_1 = password_1.next(); !password_1_1.done; password_1_1 = password_1.next()) { var codePoint = password_1_1.value; result += utf8PercentEncode(codePoint, _userInfoPercentEncodeSet); } } catch (e_5_1) { e_5 = { error: e_5_1 }; } finally { try { if (password_1_1 && !password_1_1.done && (_a = password_1.return)) _a.call(password_1); } finally { if (e_5) throw e_5.error; } } url.password = result; } exports.setThePassword = setThePassword; /** * Determines if the string represents a single dot path. * * @param str - a string */ function isSingleDotPathSegment(str) { return str === '.' || str.toLowerCase() === "%2e"; } exports.isSingleDotPathSegment = isSingleDotPathSegment; /** * Determines if the string represents a double dot path. * * @param str - a string */ function isDoubleDotPathSegment(str) { var lowerStr = str.toLowerCase(); return lowerStr === ".." || lowerStr === ".%2e" || lowerStr === "%2e." || lowerStr === "%2e%2e"; } exports.isDoubleDotPathSegment = isDoubleDotPathSegment; /** * Shorten's URL's path. * * @param url - an URL */ function shorten(url) { /** * 1. Let path be url’s path. * 2. If path is empty, then return. * 3. If url’s scheme is "file", path’s size is 1, and path[0] is a * normalized Windows drive letter, then return. * 4. Remove path’s last item. */ var path = url.path; if (path.length === 0) return; if (url.scheme === "file" && path.length === 1 && isNormalizedWindowsDriveLetter(path[0])) return; url.path.splice(url.path.length - 1, 1); } exports.shorten = shorten; /** * Determines if a string is a normalized Windows drive letter. * * @param str - a string */ function isNormalizedWindowsDriveLetter(str) { /** * A normalized Windows drive letter is a Windows drive letter of which the * second code point is U+003A (:). */ return str.length >= 2 && infra_1.codePoint.ASCIIAlpha.test(str[0]) && str[1] === ':'; } exports.isNormalizedWindowsDriveLetter = isNormalizedWindowsDriveLetter; /** * Determines if a string is a Windows drive letter. * * @param str - a string */ function isWindowsDriveLetter(str) { /** * A Windows drive letter is two code points, of which the first is an ASCII * alpha and the second is either U+003A (:) or U+007C (|). */ return str.length >= 2 && infra_1.codePoint.ASCIIAlpha.test(str[0]) && (str[1] === ':' || str[1] === '|'); } exports.isWindowsDriveLetter = isWindowsDriveLetter; /** * Determines if a string starts with a Windows drive letter. * * @param str - a string */ function startsWithAWindowsDriveLetter(str) { /** * A string starts with a Windows drive letter if all of the following are * true: * - its length is greater than or equal to 2 * - its first two code points are a Windows drive letter * - its length is 2 or its third code point is U+002F (/), U+005C (\), * U+003F (?), or U+0023 (#). */ return str.length >= 2 && isWindowsDriveLetter(str) && (str.length === 2 || (str[2] === '/' || str[2] === '\\' || str[2] === '?' || str[2] === '#')); } exports.startsWithAWindowsDriveLetter = startsWithAWindowsDriveLetter; /** * Parses a host string. * * @param input - input string * @param isNotSpecial - `true` if the source URL is not special; otherwise * `false`. */ function hostParser(input, isNotSpecial) { if (isNotSpecial === void 0) { isNotSpecial = false; } /** * 1. If isNotSpecial is not given, then set isNotSpecial to false. * 2. If input starts with U+005B ([), then: * 2.1. If input does not end with U+005D (]), validation error, return * failure. * 2.2. Return the result of IPv6 parsing input with its leading U+005B ([) * and trailing U+005D (]) removed. */ if (input.startsWith('[')) { if (!input.endsWith(']')) { validationError("Expected ']' after '['."); return null; } return iPv6Parser(input.substring(1, input.length - 1)); } /** * 3. If isNotSpecial is true, then return the result of opaque-host parsing * input. */ if (isNotSpecial) { return opaqueHostParser(input); } /** * 4. Let domain be the result of running UTF-8 decode without BOM on the * string percent decoding of input. * _Note:_ Alternatively UTF-8 decode without BOM or fail can be used, * coupled with an early return for failure, as domain to ASCII fails * on U+FFFD REPLACEMENT CHARACTER. */ var domain = util_1.utf8Decode(stringPercentDecode(input)); /** * 5. Let asciiDomain be the result of running domain to ASCII on domain. * 6. If asciiDomain is failure, validation error, return failure. * 7. If asciiDomain contains a forbidden host code point, validation error, * return failure. */ var asciiDomain = domainToASCII(domain); if (asciiDomain === null) { validationError("Invalid domain."); return null; } if (_forbiddenHostCodePoint.test(asciiDomain)) { validationError("Invalid domain."); return null; } /** * 8. Let ipv4Host be the result of IPv4 parsing asciiDomain. * 9. If ipv4Host is an IPv4 address or failure, return ipv4Host. * 10. Return asciiDomain. */ var ipv4Host = iPv4Parser(asciiDomain); if (ipv4Host === null || util_1.isNumber(ipv4Host)) return ipv4Host; return asciiDomain; } exports.hostParser = hostParser; /** * Parses a string containing an IP v4 address. * * @param input - input string * @param isNotSpecial - `true` if the source URL is not special; otherwise * `false`. */ function iPv4NumberParser(input, validationErrorFlag) { if (validationErrorFlag === void 0) { validationErrorFlag = { value: false }; } /** * 1. Let R be 10. */ var R = 10; if (input.startsWith("0x") || input.startsWith("0X")) { /** * 2. If input contains at least two code points and the first two code * points are either "0x" or "0X", then: * 2.1. Set validationErrorFlag. * 2.2. Remove the first two code points from input. * 2.3. Set R to 16. */ validationErrorFlag.value = true; input = input.substr(2); R = 16; } else if (input.length >= 2 && input[0] === '0') { /** * 3. Otherwise, if input contains at least two code points and the first * code point is U+0030 (0), then: * 3.1. Set validationErrorFlag. * 3.2. Remove the first code point from input. * 3.3. Set R to 8. */ validationErrorFlag.value = true; input = input.substr(1); R = 8; } /** * 4. If input is the empty string, then return zero. * 5. If input contains a code point that is not a radix-R digit, then * return failure. */ if (input === "") return 0; var radixRDigits = (R === 10 ? /^[0-9]+$/ : (R === 16 ? /^[0-9A-Fa-f]+$/ : /^[0-7]+$/)); if (!radixRDigits.test(input)) return null; /** * 6. Return the mathematical integer value that is represented by input in * radix-R notation, using ASCII hex digits for digits with values * 0 through 15. */ return parseInt(input, R); } exports.iPv4NumberParser = iPv4NumberParser; /** * Parses a string containing an IP v4 address. * * @param input - input string */ function iPv4Parser(input) { var e_6, _a, e_7, _b; /** * 1. Let validationErrorFlag be unset. * 2. Let parts be input split on U+002E (.). */ var validationErrorFlag = { value: false }; var parts = input.split('.'); /** * 3. If the last item in parts is the empty string, then: * 3.1. Set validationErrorFlag. * 3.2. If parts has more than one item, then remove the last item from * parts. */ if (parts[parts.length - 1] === "") { validationErrorFlag.value = true; if (parts.length > 1) parts.pop(); } /** * 4. If parts has more than four items, return input. */ if (parts.length > 4) return input; /** * 5. Let numbers be the empty list. * 6. For each part in parts: * 6.1. If part is the empty string, return input. * 6.2. Let n be the result of parsing part using validationErrorFlag. * 6.3. If n is failure, return input. * 6.4. Append n to numbers. */ var numbers = []; try { for (var parts_1 = __values(parts), parts_1_1 = parts_1.next(); !parts_1_1.done; parts_1_1 = parts_1.next()) { var part = parts_1_1.value; if (part === "") return input; var n = iPv4NumberParser(part, validationErrorFlag); if (n === null) return input; numbers.push(n); } } catch (e_6_1) { e_6 = { error: e_6_1 }; } finally { try { if (parts_1_1 && !parts_1_1.done && (_a = parts_1.return)) _a.call(parts_1); } finally { if (e_6) throw e_6.error; } } /** * 7. If validationErrorFlag is set, validation error. * 8. If any item in numbers is greater than 255, validation error. * 9. If any but the last item in numbers is greater than 255, return * failure. * 10. If the last item in numbers is greater than or equal to * 256**(5 − the number of items in numbers), validation error, return failure. */ if (validationErrorFlag.value) validationError("Invalid IP v4 address."); for (var i = 0; i < numbers.length; i++) { var item = numbers[i]; if (item > 255) { validationError("Invalid IP v4 address."); if (i < numbers.length - 1) return null; } } if (numbers[numbers.length - 1] >= Math.pow(256, 5 - numbers.length)) { validationError("Invalid IP v4 address."); return null; } /** * 11. Let ipv4 be the last item in numbers. * 12. Remove the last item from numbers. */ var ipv4 = numbers[numbers.length - 1]; numbers.pop(); /** * 13. Let counter be zero. * 14. For each n in numbers: * 14.2. Increment ipv4 by n × 256**(3 − counter). * 14.2. Increment counter by 1. */ var counter = 0; try { for (var numbers_1 = __values(numbers), numbers_1_1 = numbers_1.next(); !numbers_1_1.done; numbers_1_1 = numbers_1.next()) { var n = numbers_1_1.value; ipv4 += n * Math.pow(256, 3 - counter); counter++; } } catch (e_7_1) { e_7 = { error: e_7_1 }; } finally { try { if (numbers_1_1 && !numbers_1_1.done && (_b = numbers_1.return)) _b.call(numbers_1); } finally { if (e_7) throw e_7.error; } } /** * 15. Return ipv4. */ return ipv4; } exports.iPv4Parser = iPv4Parser; /** * Parses a string containing an IP v6 address. * * @param input - input string */ function iPv6Parser(input) { var _a; /** * 1. Let address be a new IPv6 address whose IPv6 pieces are all 0. * 2. Let pieceIndex be 0. * 3. Let compress be null. * 4. Let pointer be a pointer into input, initially 0 (pointing to the * first code point). */ var EOF = ""; var address = [0, 0, 0, 0, 0, 0, 0, 0]; var pieceIndex = 0; var compress = null; var walker = new util_1.StringWalker(input); /** * 5. If c is U+003A (:), then: * 5.1. If remaining does not start with U+003A (:), validation error, * return failure. * 5.2. Increase pointer by 2. * 5.3. Increase pieceIndex by 1 and then set compress to pieceIndex. */ if (walker.c() === ':') { if (!walker.remaining().startsWith(':')) { validationError("Invalid IP v6 address."); return null; } walker.pointer += 2; pieceIndex += 1; compress = pieceIndex; } /** * 6. While c is not the EOF code point: */ while (walker.c() !== EOF) { /** * 6.1. If pieceIndex is 8, validation error, return failure. */ if (pieceIndex === 8) { validationError("Invalid IP v6 address."); return null; } /** * 6.2. If c is U+003A (:), then: * 6.2.1. If compress is non-null, validation error, return failure. * 6.2.2. Increase pointer and pieceIndex by 1, set compress to pieceIndex, * and then continue. */ if (walker.c() === ':') { if (compress !== null) { validationError("Invalid IP v6 address."); return null; } walker.pointer++; pieceIndex++; compress = pieceIndex; continue; } /** * 6.3. Let value and length be 0. * 6.4. While length is less than 4 and c is an ASCII hex digit, set value * to value × 0x10 + c interpreted as hexadecimal number, and increase * pointer and length by 1. */ var value = 0; var length = 0; while (length < 4 && infra_1.codePoint.ASCIIHexDigit.test(walker.c())) { value = value * 0x10 + parseInt(walker.c(), 16); walker.pointer++; length++; } /** * 6.5. If c is U+002E (.), then: */ if (walker.c() === '.') { /** * 6.5.1. If length is 0, validation error, return failure. * 6.5.2. Decrease pointer by length. * 6.5.3. If pieceIndex is greater than 6, validation error, return * failure. * 6.5.4. Let numbersSeen be 0. */ if (length === 0) { validationError("Invalid IP v6 address."); return null; } walker.pointer -= length; if (pieceIndex > 6) { validationError("Invalid IP v6 address."); return null; } var numbersSeen = 0; /** * 6.5.5. While c is not the EOF code point: */ while (walker.c() !== EOF) { /** * 6.5.5.1. Let ipv4Piece be null. */ var ipv4Piece = null; /** * 6.5.5.2. If numbersSeen is greater than 0, then: * 6.5.5.2.1. If c is a U+002E (.) and numbersSeen is less than 4, then * increase pointer by 1. * 6.5.5.2.1. Otherwise, validation error, return failure. */ if (numbersSeen > 0) { if (walker.c() === '.' && numbersSeen < 4) { walker.pointer++; } else { validationError("Invalid IP v6 address."); return null; } } /** * 6.5.5.3. If c is not an ASCII digit, validation error, return * failure. */ if (!infra_1.codePoint.ASCIIDigit.test(walker.c())) { validationError("Invalid IP v6 address."); return null; } /** * 6.5.5.4. While c is an ASCII digit: */ while (infra_1.codePoint.ASCIIDigit.test(walker.c())) { /** * 6.5.5.4.1. Let number be c interpreted as decimal number. */ var number = parseInt(walker.c(), 10); /** * 6.5.5.4.2. If ipv4Piece is null, then set ipv4Piece to number. * Otherwise, if ipv4Piece is 0, validation error, return failure. * Otherwise, set ipv4Piece to ipv4Piece × 10 + number. */ if (ipv4Piece === null) { ipv4Piece = number; } else if (ipv4Piece === 0) { validationError("Invalid IP v6 address."); return null; } else { ipv4Piece = ipv4Piece * 10 + number; } /** * 6.5.5.4.3. If ipv4Piece is greater than 255, validation error, return failure. * 6.5.5.4.4. Increase pointer by 1. */ if (ipv4Piece > 255) { validationError("Invalid IP v6 address."); return null; } walker.pointer++; } /** * 6.5.5.5. Set address[pieceIndex] to address[pieceIndex] × 0x100 + ipv4Piece. * 6.5.5.6. Increase numbersSeen by 1. * 6.5.5.7. If numbersSeen is 2 or 4, then increase pieceIndex by 1. */ if (ipv4Piece === null) { validationError("Invalid IP v6 address."); return null; } address[pieceIndex] = address[pieceIndex] * 0x100 + ipv4Piece; numbersSeen++; if (numbersSeen === 2 || numbersSeen === 4) pieceIndex++; } /** * 6.5.6. If numbersSeen is not 4, validation error, return failure. */ if (numbersSeen !== 4) { validationError("Invalid IP v6 address."); return null; } /** * 6.5.7. Break. */ break; } else if (walker.c() === ':') { /** * 6.6. Otherwise, if c is U+003A (:): * 6.6.1. Increase pointer by 1. * 6.6.2. If c is the EOF code point, validation error, return failure. */ walker.pointer++; if (walker.c() === EOF) { validationError("Invalid IP v6 address."); return null; } } else if (walker.c() !== EOF) { /** * 6.7. Otherwise, if c is not the EOF code point, validation error, * return failure. */ validationError("Invalid IP v6 address."); return null; } /** * 6.8. Set address[pieceIndex] to value. * 6.9. Increase pieceIndex by 1. */ address[pieceIndex] = value; pieceIndex++; } /** * 7. If compress is non-null, then: * 7.1. Let swaps be pieceIndex − compress. * 7.2. Set pieceIndex to 7. * 7.3. While pieceIndex is not 0 and swaps is greater than 0, swap * address[pieceIndex] with address[compress + swaps − 1], and then decrease * both pieceIndex and swaps by 1. */ if (compress !== null) { var swaps = pieceIndex - compress; pieceIndex = 7; while (pieceIndex !== 0 && swaps > 0) { _a = __read([address[compress + swaps - 1], address[pieceIndex]], 2), address[pieceIndex] = _a[0], address[compress + swaps - 1] = _a[1]; pieceIndex--; swaps--; } } else if (compress === null && pieceIndex !== 8) { /** * 8. Otherwise, if compress is null and pieceIndex is not 8, * validation error, return failure. */ validationError("Invalid IP v6 address."); return null; } /** * 9. Return address. */ return address; } exports.iPv6Parser = iPv6Parser; /** * Parses an opaque host string. * * @param input - a string */ function opaqueHostParser(input) { var e_8, _a; /** * 1. If input contains a forbidden host code point excluding U+0025 (%), * validation error, return failure. * 2. Let output be the empty string. * 3. For each code point in input, UTF-8 percent encode it using the C0 * control percent-encode set, and append the result to output. * 4. Return output. */ var forbiddenChars = /[\x00\t\f\r #/:?@\[\\\]]/; if (forbiddenChars.test(input)) { validationError("Invalid host string."); return null; } var output = ""; try { for (var input_1 = __values(input), input_1_1 = input_1.next(); !input_1_1.done; input_1_1 = input_1.next()) { var codePoint = input_1_1.value; output += utf8PercentEncode(codePoint, _c0ControlPercentEncodeSet); } } catch (e_8_1) { e_8 = { error: e_8_1 }; } finally { try { if (input_1_1 && !input_1_1.done && (_a = input_1.return)) _a.call(input_1); } finally { if (e_8) throw e_8.error; } } return output; } exports.opaqueHostParser = opaqueHostParser; /** * Resolves a Blob URL from the user agent's Blob URL store. * function is not implemented. * See: https://w3c.github.io/FileAPI/#blob-url-resolve * * @param url - an url */ function resolveABlobURL(url) { return null; } exports.resolveABlobURL = resolveABlobURL; /** * Percent encodes a byte. * * @param value - a byte */ function percentEncode(value) { /** * To percent encode a byte into a percent-encoded byte, return a string * consisting of U+0025 (%), followed by two ASCII upper hex digits * representing byte. */ return '%' + ('00' + value.toString(16).toUpperCase()).slice(-2); } exports.percentEncode = percentEncode; /** * Percent decodes a byte sequence input. * * @param input - a byte sequence */ function percentDecode(input) { var isHexDigit = function (byte) { return (byte >= 0x30 && byte <= 0x39) || (byte >= 0x41 && byte <= 0x46) || (byte >= 0x61 && byte <= 0x66); }; /** * 1. Let output be an empty byte sequence. * 2. For each byte byte in input: */ var output = new Uint8Array(input.length); var n = 0; for (var i = 0; i < input.length; i++) { var byte = input[i]; /** * 2.1. If byte is not 0x25 (%), then append byte to output. * 2.2. Otherwise, if byte is 0x25 (%) and the next two bytes after byte * in input are not in the ranges 0x30 (0) to 0x39 (9), 0x41 (A) * to 0x46 (F), and 0x61 (a) to 0x66 (f), all inclusive, append byte * to output. * 2.3. Otherwise: * 2.3.1. Let bytePoint be the two bytes after byte in input, decoded, * and then interpreted as hexadecimal number. * 2.3.2. Append a byte whose value is bytePoint to output. * 2.3.3. Skip the next two bytes in input. */ if (byte !== 0x25) { output[n] = byte; n++; } else if (byte === 0x25 && i >= input.length - 2) { output[n] = byte; n++; } else if (byte === 0x25 && (!isHexDigit(input[i + 1]) || !isHexDigit(input[i + 2]))) { output[n] = byte; n++; } else { var bytePoint = parseInt(util_1.utf8Decode(Uint8Array.of(input[i + 1], input[i + 2])), 16); output[n] = bytePoint; n++; i += 2; } } return output.subarray(0, n); } exports.percentDecode = percentDecode; /** * String percent decodes a string. * * @param input - a string */ function stringPercentDecode(input) { /** * 1. Let bytes be the UTF-8 encoding of input. * 2. Return the percent decoding of bytes. */ return percentDecode(util_1.utf8Encode(input)); } exports.stringPercentDecode = stringPercentDecode; /** * UTF-8 percent encodes a code point, using a percent encode set. * * @param codePoint - a code point * @param percentEncodeSet - a percent encode set */ function utf8PercentEncode(codePoint, percentEncodeSet) { var e_9, _a; /** * 1. If codePoint is not in percentEncodeSet, then return codePoint. * 2. Let bytes be the result of running UTF-8 encode on codePoint. * 3. Percent encode each byte in bytes, and then return the results * concatenated, in the same order. */ if (!percentEncodeSet.test(codePoint)) return codePoint; var bytes = util_1.utf8Encode(codePoint); var result = ""; try { for (var bytes_2 = __values(bytes), bytes_2_1 = bytes_2.next(); !bytes_2_1.done; bytes_2_1 = bytes_2.next()) { var byte = bytes_2_1.value; result += percentEncode(byte); } } catch (e_9_1) { e_9 = { error: e_9_1 }; } finally { try { if (bytes_2_1 && !bytes_2_1.done && (_a = bytes_2.return)) _a.call(bytes_2); } finally { if (e_9) throw e_9.error; } } return result; } exports.utf8PercentEncode = utf8PercentEncode; /** * Determines if two hosts are considered equal. * * @param hostA - a host * @param hostB - a host */ function hostEquals(hostA, hostB) { return hostA === hostB; } exports.hostEquals = hostEquals; /** * Determines if two URLs are considered equal. * * @param urlA - a URL * @param urlB - a URL * @param excludeFragmentsFlag - whether to ignore fragments while comparing */ function urlEquals(urlA, urlB, excludeFragmentsFlag) { if (excludeFragmentsFlag === void 0) { excludeFragmentsFlag = false; } /** * 1. Let serializedA be the result of serializing A, with the exclude * fragment flag set if the exclude fragments flag is set. * 2. Let serializedB be the result of serializing B, with the exclude * fragment flag set if the exclude fragments flag is set. * 3. Return true if serializedA is serializedB, and false otherwise. */ return urlSerializer(urlA, excludeFragmentsFlag) === urlSerializer(urlB, excludeFragmentsFlag); } exports.urlEquals = urlEquals; /** * Parses an `application/x-www-form-urlencoded` string. * * @param input - a string */ function urlEncodedStringParser(input) { /** * The application/x-www-form-urlencoded string parser takes a string input, * UTF-8 encodes it, and then returns the result of * application/x-www-form-urlencoded parsing it. */ return urlEncodedParser(util_1.utf8Encode(input)); } exports.urlEncodedStringParser = urlEncodedStringParser; /** * Parses `application/x-www-form-urlencoded` bytes. * * @param input - a byte sequence */ function urlEncodedParser(input) { var e_10, _a, e_11, _b; /** * 1. Let sequences be the result of splitting input on 0x26 (&). */ var sequences = []; var currentSequence = []; try { for (var input_2 = __values(input), input_2_1 = input_2.next(); !input_2_1.done; input_2_1 = input_2.next()) { var byte = input_2_1.value; if (byte === 0x26) { sequences.push(Uint8Array.from(currentSequence)); currentSequence = []; } else { currentSequence.push(byte); } } } catch (e_10_1) { e_10 = { error: e_10_1 }; } finally { try { if (input_2_1 && !input_2_1.done && (_a = input_2.return)) _a.call(input_2); } finally { if (e_10) throw e_10.error; } } if (currentSequence.length !== 0) { sequences.push(Uint8Array.from(currentSequence)); } /** * 2. Let output be an initially empty list of name-value tuples where both name and value hold a string. */ var output = []; try { /** * 3. For each byte sequence bytes in sequences: */ for (var sequences_1 = __values(sequences), sequences_1_1 = sequences_1.next(); !sequences_1_1.done; sequences_1_1 = sequences_1.next()) { var bytes = sequences_1_1.value; /** * 3.1. If bytes is the empty byte sequence, then continue. */ if (bytes.length === 0) continue; /** * 3.2. If bytes contains a 0x3D (=), then let name be the bytes from the * start of bytes up to but excluding its first 0x3D (=), and let value be * the bytes, if any, after the first 0x3D (=) up to the end of bytes. * If 0x3D (=) is the first byte, then name will be the empty byte * sequence. If it is the last, then value will be the empty byte sequence. * 3.3. Otherwise, let name have the value of bytes and let value be the * empty byte sequence. */ var index = bytes.indexOf(0x3D); var name = (index !== -1 ? bytes.slice(0, index) : bytes); var value = (index !== -1 ? bytes.slice(index + 1) : new Uint8Array()); /** * 3.4. Replace any 0x2B (+) in name and value with 0x20 (SP). */ for (var i = 0; i < name.length; i++) if (name[i] === 0x2B) name[i] = 0x20; for (var i = 0; i < value.length; i++) if (value[i] === 0x2B) value[i] = 0x20; /** * 3.5. Let nameString and valueString be the result of running UTF-8 * decode without BOM on the percent decoding of name and value, * respectively. */ var nameString = util_1.utf8Decode(name); var valueString = util_1.utf8Decode(value); /** * 3.6. Append (nameString, valueString) to output. */ output.push([nameString, valueString]); } } catch (e_11_1) { e_11 = { error: e_11_1 }; } finally { try { if (sequences_1_1 && !sequences_1_1.done && (_b = sequences_1.return)) _b.call(sequences_1); } finally { if (e_11) throw e_11.error; } } /** * 4. Return output. */ return output; } exports.urlEncodedParser = urlEncodedParser; /** * Serializes `application/x-www-form-urlencoded` bytes. * * @param input - a byte sequence */ function urlEncodedByteSerializer(input) { var e_12, _a; /** * 1. Let output be the empty string. * 2. For each byte in input, depending on byte: * 0x20 (SP) * Append U+002B (+) to output. * * 0x2A (*) * 0x2D (-) * 0x2E (.) * 0x30 (0) to 0x39 (9) * 0x41 (A) to 0x5A (Z) * 0x5F (_) * 0x61 (a) to 0x7A (z) * Append a code point whose value is byte to output. * * Otherwise * Append byte, percent encoded, to output. * 3. Return output. */ var output = ""; try { for (var input_3 = __values(input), input_3_1 = input_3.next(); !input_3_1.done; input_3_1 = input_3.next()) { var byte = input_3_1.value; if (byte === 0x20) { output += '+'; } else if (byte === 0x2A || byte === 0x2D || byte === 0x2E || (byte >= 0x30 && byte <= 0x39) || (byte >= 0x41 && byte <= 0x5A) || byte === 0x5F || (byte >= 0x61 && byte <= 0x7A)) { output += String.fromCodePoint(byte); } else { output += percentEncode(byte); } } } catch (e_12_1) { e_12 = { error: e_12_1 }; } finally { try { if (input_3_1 && !input_3_1.done && (_a = input_3.return)) _a.call(input_3); } finally { if (e_12) throw e_12.error; } } return output; } exports.urlEncodedByteSerializer = urlEncodedByteSerializer; /** * Serializes `application/x-www-form-urlencoded` tuples. * * @param input - input tuple of name/value pairs * @param encodingOverride: encoding override */ function urlEncodedSerializer(tuples, encodingOverride) { var e_13, _a; /** * 1. Let encoding be UTF-8. * 2. If encoding override is given, set encoding to the result of getting * an output encoding from encoding override. */ var encoding = (encodingOverride === undefined || encodingOverride === "replacement" || encodingOverride === "UTF-16BE" || encodingOverride === "UTF-16LE" ? "UTF-8" : encodingOverride); if (encoding.toUpperCase() !== "UTF-8") { throw new Error("Only UTF-8 encoding is supported."); } /** * 3. Let output be the empty string. */ var output = ""; try { /** * 4. For each tuple in tuples: */ for (var tuples_1 = __values(tuples), tuples_1_1 = tuples_1.next(); !tuples_1_1.done; tuples_1_1 = tuples_1.next()) { var tuple = tuples_1_1.value; /** * 4.1. Let name be the result of serializing the result of encoding * tuple’s name, using encoding. */ var name = urlEncodedByteSerializer(util_1.utf8Encode(tuple[0])); /** * 4.2. Let value be tuple’s value. */ var value = tuple[1]; /** * TODO: * 4.3. If value is a file, then set value to value’s filename. */ /** * 4.4. Set value to the result of serializing the result of encoding * value, using encoding. */ value = urlEncodedByteSerializer(util_1.utf8Encode(value)); /** * 4.5. If tuple is not the first pair in tuples, then append U+0026 (&) * to output. */ if (output !== "") output += '&'; /** * 4.6. Append name, followed by U+003D (=), followed by value, to output. */ output += name + '=' + value; } } catch (e_13_1) { e_13 = { error: e_13_1 }; } finally { try { if (tuples_1_1 && !tuples_1_1.done && (_a = tuples_1.return)) _a.call(tuples_1); } finally { if (e_13) throw e_13.error; } } /** * 5. Return output. */ return output; } exports.urlEncodedSerializer = urlEncodedSerializer; /** * Returns a URL's origin. * * @param url - a URL */ function origin(url) { /** * A URL’s origin is the origin returned by running these steps, switching * on URL’s scheme: * "blob" * 1. If URL’s blob URL entry is non-null, then return URL’s blob URL * entry’s environment’s origin. * 2. Let url be the result of parsing URL’s path[0]. * 3. Return a new opaque origin, if url is failure, and url’s origin * otherwise. * "ftp" * "http" * "https" * "ws" * "wss" * Return a tuple consisting of URL’s scheme, URL’s host, URL’s port, and * null. * "file" * Unfortunate as it is, is left as an exercise to the reader. When in * doubt, return a new opaque origin. * Otherwise * Return a new opaque origin. */ switch (url.scheme) { case "blob": if (url._blobURLEntry !== null) { // TODO: return URL’s blob URL entry’s environment’s origin. } var parsedURL = basicURLParser(url.path[0]); if (parsedURL === null) return interfaces_1.OpaqueOrigin; else return origin(parsedURL); case "ftp": case "http": case "https": case "ws": case "wss": return [url.scheme, url.host === null ? "" : url.host, url.port, null]; case "file": return interfaces_1.OpaqueOrigin; default: return interfaces_1.OpaqueOrigin; } } exports.origin = origin; /** * Converts a domain string to ASCII. * * @param domain - a domain string */ function domainToASCII(domain, beStrict) { if (beStrict === void 0) { beStrict = false; } /** * 1. If beStrict is not given, set it to false. * 2. Let result be the result of running Unicode ToASCII with domain_name * set to domain, UseSTD3ASCIIRules set to beStrict, CheckHyphens set to * false, CheckBidi set to true, CheckJoiners set to true, * Transitional_Processing set to false, and VerifyDnsLength set to beStrict. * 3. If result is a failure value, validation error, return failure. * 4. Return result. */ // Use node.js function var result = url_1.domainToASCII(domain); if (result === "") { validationError("Invalid domain name."); return null; } return result; } exports.domainToASCII = domainToASCII; /** * Converts a domain string to Unicode. * * @param domain - a domain string */ function domainToUnicode(domain, beStrict) { if (beStrict === void 0) { beStrict = false; } /** * 1. Let result be the result of running Unicode ToUnicode with domain_name * set to domain, CheckHyphens set to false, CheckBidi set to true, * CheckJoiners set to true, UseSTD3ASCIIRules set to false, and * Transitional_Processing set to false. * 2. Signify validation errors for any returned errors, and then, * return result. */ // Use node.js function var result = url_1.domainToUnicode(domain); if (result === "") { validationError("Invalid domain name."); } return result; } exports.domainToUnicode = domainToUnicode; /** * Serializes an origin. * function is from the HTML spec: * https://html.spec.whatwg.org/#ascii-serialisation-of-an-origin * * @param origin - an origin */ function asciiSerializationOfAnOrigin(origin) { /** * 1. If origin is an opaque origin, then return "null". * 2. Otherwise, let result be origin's scheme. * 3. Append "://" to result. * 4. Append origin's host, serialized, to result. * 5. If origin's port is non-null, append a U+003A COLON character (:), * and origin's port, serialized, to result. * 6. Return result. */ if (origin[0] === "" && origin[1] === "" && origin[2] === null && origin[3] === null) { return "null"; } var result = origin[0] + "://" + hostSerializer(origin[1]); if (origin[2] !== null) result += ":" + origin[2].toString(); return result; } exports.asciiSerializationOfAnOrigin = asciiSerializationOfAnOrigin; //# sourceMappingURL=URLAlgorithm.js.map /***/ }), /***/ 31752: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); /** * Represents the state of the URL parser. */ var ParserState; (function (ParserState) { ParserState[ParserState["SchemeStart"] = 0] = "SchemeStart"; ParserState[ParserState["Scheme"] = 1] = "Scheme"; ParserState[ParserState["NoScheme"] = 2] = "NoScheme"; ParserState[ParserState["SpecialRelativeOrAuthority"] = 3] = "SpecialRelativeOrAuthority"; ParserState[ParserState["PathOrAuthority"] = 4] = "PathOrAuthority"; ParserState[ParserState["Relative"] = 5] = "Relative"; ParserState[ParserState["RelativeSlash"] = 6] = "RelativeSlash"; ParserState[ParserState["SpecialAuthoritySlashes"] = 7] = "SpecialAuthoritySlashes"; ParserState[ParserState["SpecialAuthorityIgnoreSlashes"] = 8] = "SpecialAuthorityIgnoreSlashes"; ParserState[ParserState["Authority"] = 9] = "Authority"; ParserState[ParserState["Host"] = 10] = "Host"; ParserState[ParserState["Hostname"] = 11] = "Hostname"; ParserState[ParserState["Port"] = 12] = "Port"; ParserState[ParserState["File"] = 13] = "File"; ParserState[ParserState["FileSlash"] = 14] = "FileSlash"; ParserState[ParserState["FileHost"] = 15] = "FileHost"; ParserState[ParserState["PathStart"] = 16] = "PathStart"; ParserState[ParserState["Path"] = 17] = "Path"; ParserState[ParserState["CannotBeABaseURLPath"] = 18] = "CannotBeABaseURLPath"; ParserState[ParserState["Query"] = 19] = "Query"; ParserState[ParserState["Fragment"] = 20] = "Fragment"; })(ParserState = exports.ParserState || (exports.ParserState = {})); exports.OpaqueOrigin = ["", "", null, null]; //# sourceMappingURL=interfaces.js.map /***/ }), /***/ 27561: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); /** * Represents a cache for storing order between equal objects. * * This cache is used when an algorithm compares two objects and finds them to * be equal but still needs to establish an order between those two objects. * When two such objects `a` and `b` are passed to the `check` method, a random * number is generated with `Math.random()`. If the random number is less than * `0.5` it is assumed that `a < b` otherwise `a > b`. The random number along * with `a` and `b` is stored in the cache, so that subsequent checks result * in the same consistent result. * * The cache has a size limit which is defined on initialization. */ var CompareCache = /** @class */ (function () { /** * Initializes a new instance of `CompareCache`. * * @param limit - maximum number of items to keep in the cache. When the limit * is exceeded the first item is removed from the cache. */ function CompareCache(limit) { if (limit === void 0) { limit = 1000; } this._items = new Map(); this._limit = limit; } /** * Compares and caches the given objects. Returns `true` if `objA < objB` and * `false` otherwise. * * @param objA - an item to compare * @param objB - an item to compare */ CompareCache.prototype.check = function (objA, objB) { if (this._items.get(objA) === objB) return true; else if (this._items.get(objB) === objA) return false; var result = (Math.random() < 0.5); if (result) { this._items.set(objA, objB); } else { this._items.set(objB, objA); } if (this._items.size > this._limit) { var it_1 = this._items.keys().next(); /* istanbul ignore else */ if (!it_1.done) { this._items.delete(it_1.value); } } return result; }; return CompareCache; }()); exports.CompareCache = CompareCache; //# sourceMappingURL=CompareCache.js.map /***/ }), /***/ 16006: /***/ (function(__unused_webpack_module, exports) { "use strict"; var __generator = (this && this.__generator) || function (thisArg, body) { var _ = { label: 0, sent: function() { if (t[0] & 1) throw t[1]; return t[1]; }, trys: [], ops: [] }, f, y, t, g; return g = { next: verb(0), "throw": verb(1), "return": verb(2) }, typeof Symbol === "function" && (g[Symbol.iterator] = function() { return this; }), g; function verb(n) { return function (v) { return step([n, v]); }; } function step(op) { if (f) throw new TypeError("Generator is already executing."); while (_) try { if (f = 1, y && (t = op[0] & 2 ? y["return"] : op[0] ? y["throw"] || ((t = y["return"]) && t.call(y), 0) : y.next) && !(t = t.call(y, op[1])).done) return t; if (y = 0, t) op = [op[0] & 2, t.value]; switch (op[0]) { case 0: case 1: t = op; break; case 4: _.label++; return { value: op[1], done: false }; case 5: _.label++; y = op[1]; op = [0]; continue; case 7: op = _.ops.pop(); _.trys.pop(); continue; default: if (!(t = _.trys, t = t.length > 0 && t[t.length - 1]) && (op[0] === 6 || op[0] === 2)) { _ = 0; continue; } if (op[0] === 3 && (!t || (op[1] > t[0] && op[1] < t[3]))) { _.label = op[1]; break; } if (op[0] === 6 && _.label < t[1]) { _.label = t[1]; t = op; break; } if (t && _.label < t[2]) { _.label = t[2]; _.ops.push(op); break; } if (t[2]) _.ops.pop(); _.trys.pop(); continue; } op = body.call(thisArg, _); } catch (e) { op = [6, e]; y = 0; } finally { f = t = 0; } if (op[0] & 5) throw op[1]; return { value: op[0] ? op[1] : void 0, done: true }; } }; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; Object.defineProperty(exports, "__esModule", ({ value: true })); /** * Represents a set of objects with a size limit. */ var FixedSizeSet = /** @class */ (function () { /** * Initializes a new instance of `FixedSizeSet`. * * @param limit - maximum number of items to keep in the set. When the limit * is exceeded the first item is removed from the set. */ function FixedSizeSet(limit) { if (limit === void 0) { limit = 1000; } this._items = new Set(); this._limit = limit; } /** * Adds a new item to the set. * * @param item - an item */ FixedSizeSet.prototype.add = function (item) { this._items.add(item); if (this._items.size > this._limit) { var it_1 = this._items.values().next(); /* istanbul ignore else */ if (!it_1.done) { this._items.delete(it_1.value); } } return this; }; /** * Removes an item from the set. * * @param item - an item */ FixedSizeSet.prototype.delete = function (item) { return this._items.delete(item); }; /** * Determines if an item is in the set. * * @param item - an item */ FixedSizeSet.prototype.has = function (item) { return this._items.has(item); }; /** * Removes all items from the set. */ FixedSizeSet.prototype.clear = function () { this._items.clear(); }; Object.defineProperty(FixedSizeSet.prototype, "size", { /** * Gets the number of items in the set. */ get: function () { return this._items.size; }, enumerable: true, configurable: true }); /** * Applies the given callback function to all elements of the set. */ FixedSizeSet.prototype.forEach = function (callback, thisArg) { var _this = this; this._items.forEach(function (e) { return callback.call(thisArg, e, e, _this); }); }; /** * Iterates through the items in the set. */ FixedSizeSet.prototype.keys = function () { return __generator(this, function (_a) { switch (_a.label) { case 0: return [5 /*yield**/, __values(this._items.keys())]; case 1: _a.sent(); return [2 /*return*/]; } }); }; /** * Iterates through the items in the set. */ FixedSizeSet.prototype.values = function () { return __generator(this, function (_a) { switch (_a.label) { case 0: return [5 /*yield**/, __values(this._items.values())]; case 1: _a.sent(); return [2 /*return*/]; } }); }; /** * Iterates through the items in the set. */ FixedSizeSet.prototype.entries = function () { return __generator(this, function (_a) { switch (_a.label) { case 0: return [5 /*yield**/, __values(this._items.entries())]; case 1: _a.sent(); return [2 /*return*/]; } }); }; /** * Iterates through the items in the set. */ FixedSizeSet.prototype[Symbol.iterator] = function () { return __generator(this, function (_a) { switch (_a.label) { case 0: return [5 /*yield**/, __values(this._items)]; case 1: _a.sent(); return [2 /*return*/]; } }); }; Object.defineProperty(FixedSizeSet.prototype, Symbol.toStringTag, { /** * Returns the string tag of the set. */ get: function () { return "FixedSizeSet"; }, enumerable: true, configurable: true }); return FixedSizeSet; }()); exports.FixedSizeSet = FixedSizeSet; //# sourceMappingURL=FixedSizeSet.js.map /***/ }), /***/ 11857: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); /** * Represents an object with lazy initialization. */ var Lazy = /** @class */ (function () { /** * Initializes a new instance of `Lazy`. * * @param initFunc - initializer function */ function Lazy(initFunc) { this._initialized = false; this._value = undefined; this._initFunc = initFunc; } Object.defineProperty(Lazy.prototype, "value", { /** * Gets the value of the object. */ get: function () { if (!this._initialized) { this._value = this._initFunc(); this._initialized = true; } return this._value; }, enumerable: true, configurable: true }); return Lazy; }()); exports.Lazy = Lazy; //# sourceMappingURL=Lazy.js.map /***/ }), /***/ 25798: /***/ (function(__unused_webpack_module, exports) { "use strict"; var __generator = (this && this.__generator) || function (thisArg, body) { var _ = { label: 0, sent: function() { if (t[0] & 1) throw t[1]; return t[1]; }, trys: [], ops: [] }, f, y, t, g; return g = { next: verb(0), "throw": verb(1), "return": verb(2) }, typeof Symbol === "function" && (g[Symbol.iterator] = function() { return this; }), g; function verb(n) { return function (v) { return step([n, v]); }; } function step(op) { if (f) throw new TypeError("Generator is already executing."); while (_) try { if (f = 1, y && (t = op[0] & 2 ? y["return"] : op[0] ? y["throw"] || ((t = y["return"]) && t.call(y), 0) : y.next) && !(t = t.call(y, op[1])).done) return t; if (y = 0, t) op = [op[0] & 2, t.value]; switch (op[0]) { case 0: case 1: t = op; break; case 4: _.label++; return { value: op[1], done: false }; case 5: _.label++; y = op[1]; op = [0]; continue; case 7: op = _.ops.pop(); _.trys.pop(); continue; default: if (!(t = _.trys, t = t.length > 0 && t[t.length - 1]) && (op[0] === 6 || op[0] === 2)) { _ = 0; continue; } if (op[0] === 3 && (!t || (op[1] > t[0] && op[1] < t[3]))) { _.label = op[1]; break; } if (op[0] === 6 && _.label < t[1]) { _.label = t[1]; t = op; break; } if (t && _.label < t[2]) { _.label = t[2]; _.ops.push(op); break; } if (t[2]) _.ops.pop(); _.trys.pop(); continue; } op = body.call(thisArg, _); } catch (e) { op = [6, e]; y = 0; } finally { f = t = 0; } if (op[0] & 5) throw op[1]; return { value: op[0] ? op[1] : void 0, done: true }; } }; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; Object.defineProperty(exports, "__esModule", ({ value: true })); /** * Represents a cache of objects with a size limit. */ var ObjectCache = /** @class */ (function () { /** * Initializes a new instance of `ObjectCache`. * * @param limit - maximum number of items to keep in the cache. When the limit * is exceeded the first item is removed from the cache. */ function ObjectCache(limit) { if (limit === void 0) { limit = 1000; } this._items = new Map(); this._limit = limit; } /** * Gets an item from the cache. * * @param key - object key */ ObjectCache.prototype.get = function (key) { return this._items.get(key); }; /** * Adds a new item to the cache. * * @param key - object key * @param value - object value */ ObjectCache.prototype.set = function (key, value) { this._items.set(key, value); if (this._items.size > this._limit) { var it_1 = this._items.keys().next(); /* istanbul ignore else */ if (!it_1.done) { this._items.delete(it_1.value); } } }; /** * Removes an item from the cache. * * @param item - an item */ ObjectCache.prototype.delete = function (key) { return this._items.delete(key); }; /** * Determines if an item is in the cache. * * @param item - an item */ ObjectCache.prototype.has = function (key) { return this._items.has(key); }; /** * Removes all items from the cache. */ ObjectCache.prototype.clear = function () { this._items.clear(); }; Object.defineProperty(ObjectCache.prototype, "size", { /** * Gets the number of items in the cache. */ get: function () { return this._items.size; }, enumerable: true, configurable: true }); /** * Applies the given callback function to all elements of the cache. */ ObjectCache.prototype.forEach = function (callback, thisArg) { this._items.forEach(function (v, k) { return callback.call(thisArg, k, v); }); }; /** * Iterates through the items in the set. */ ObjectCache.prototype.keys = function () { return __generator(this, function (_a) { switch (_a.label) { case 0: return [5 /*yield**/, __values(this._items.keys())]; case 1: _a.sent(); return [2 /*return*/]; } }); }; /** * Iterates through the items in the set. */ ObjectCache.prototype.values = function () { return __generator(this, function (_a) { switch (_a.label) { case 0: return [5 /*yield**/, __values(this._items.values())]; case 1: _a.sent(); return [2 /*return*/]; } }); }; /** * Iterates through the items in the set. */ ObjectCache.prototype.entries = function () { return __generator(this, function (_a) { switch (_a.label) { case 0: return [5 /*yield**/, __values(this._items.entries())]; case 1: _a.sent(); return [2 /*return*/]; } }); }; /** * Iterates through the items in the set. */ ObjectCache.prototype[Symbol.iterator] = function () { return __generator(this, function (_a) { switch (_a.label) { case 0: return [5 /*yield**/, __values(this._items)]; case 1: _a.sent(); return [2 /*return*/]; } }); }; Object.defineProperty(ObjectCache.prototype, Symbol.toStringTag, { /** * Returns the string tag of the cache. */ get: function () { return "ObjectCache"; }, enumerable: true, configurable: true }); return ObjectCache; }()); exports.ObjectCache = ObjectCache; //# sourceMappingURL=ObjectCache.js.map /***/ }), /***/ 34145: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); /** * Walks through the code points of a string. */ var StringWalker = /** @class */ (function () { /** * Initializes a new `StringWalker`. * * @param input - input string */ function StringWalker(input) { this._pointer = 0; this._chars = Array.from(input); this._length = this._chars.length; } Object.defineProperty(StringWalker.prototype, "eof", { /** * Determines if the current position is beyond the end of string. */ get: function () { return this._pointer >= this._length; }, enumerable: true, configurable: true }); Object.defineProperty(StringWalker.prototype, "length", { /** * Returns the number of code points in the input string. */ get: function () { return this._length; }, enumerable: true, configurable: true }); /** * Returns the current code point. Returns `-1` if the position is beyond * the end of string. */ StringWalker.prototype.codePoint = function () { if (this._codePoint === undefined) { if (this.eof) { this._codePoint = -1; } else { var cp = this._chars[this._pointer].codePointAt(0); /* istanbul ignore else */ if (cp !== undefined) { this._codePoint = cp; } else { this._codePoint = -1; } } } return this._codePoint; }; /** * Returns the current character. Returns an empty string if the position is * beyond the end of string. */ StringWalker.prototype.c = function () { if (this._c === undefined) { this._c = (this.eof ? "" : this._chars[this._pointer]); } return this._c; }; /** * Returns the remaining string. */ StringWalker.prototype.remaining = function () { if (this._remaining === undefined) { this._remaining = (this.eof ? "" : this._chars.slice(this._pointer + 1).join('')); } return this._remaining; }; /** * Returns the substring from the current character to the end of string. */ StringWalker.prototype.substring = function () { if (this._substring === undefined) { this._substring = (this.eof ? "" : this._chars.slice(this._pointer).join('')); } return this._substring; }; Object.defineProperty(StringWalker.prototype, "pointer", { /** * Gets or sets the current position. */ get: function () { return this._pointer; }, set: function (val) { if (val === this._pointer) return; this._pointer = val; this._codePoint = undefined; this._c = undefined; this._remaining = undefined; this._substring = undefined; }, enumerable: true, configurable: true }); return StringWalker; }()); exports.StringWalker = StringWalker; //# sourceMappingURL=StringWalker.js.map /***/ }), /***/ 76195: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; var __values = (this && this.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; Object.defineProperty(exports, "__esModule", ({ value: true })); var FixedSizeSet_1 = __nccwpck_require__(16006); exports.FixedSizeSet = FixedSizeSet_1.FixedSizeSet; var ObjectCache_1 = __nccwpck_require__(25798); exports.ObjectCache = ObjectCache_1.ObjectCache; var CompareCache_1 = __nccwpck_require__(27561); exports.CompareCache = CompareCache_1.CompareCache; var Lazy_1 = __nccwpck_require__(11857); exports.Lazy = Lazy_1.Lazy; var StringWalker_1 = __nccwpck_require__(34145); exports.StringWalker = StringWalker_1.StringWalker; /** * Applies the mixin to a given class. * * @param baseClass - class to receive the mixin * @param mixinClass - mixin class * @param overrides - an array with names of function overrides. Base class * functions whose names are in this array will be kept by prepending an * underscore to their names. */ function applyMixin(baseClass, mixinClass) { var overrides = []; for (var _i = 2; _i < arguments.length; _i++) { overrides[_i - 2] = arguments[_i]; } Object.getOwnPropertyNames(mixinClass.prototype).forEach(function (name) { if (name !== "constructor") { if (overrides.indexOf(name) !== -1) { var orgPropDesc = Object.getOwnPropertyDescriptor(baseClass.prototype, name); /* istanbul ignore else */ if (orgPropDesc) { Object.defineProperty(baseClass.prototype, "_" + name, orgPropDesc); } } var propDesc = Object.getOwnPropertyDescriptor(mixinClass.prototype, name); /* istanbul ignore else */ if (propDesc) { Object.defineProperty(baseClass.prototype, name, propDesc); } } }); } exports.applyMixin = applyMixin; /** * Applies default values to the given object. * * @param obj - an object * @param defaults - an object with default values * @param overwrite - if set to `true` defaults object always overwrites object * values, whether they are `undefined` or not. */ function applyDefaults(obj, defaults, overwrite) { if (overwrite === void 0) { overwrite = false; } var result = clone(obj || {}); forEachObject(defaults, function (key, val) { if (isPlainObject(val)) { result[key] = applyDefaults(result[key], val, overwrite); } else if (overwrite || result[key] === undefined) { result[key] = val; } }); return result; } exports.applyDefaults = applyDefaults; /** * Iterates over items of an array or set. * * @param arr - array or set to iterate * @param callback - a callback function which receives each array item as its * single argument * @param thisArg - the value of this inside callback */ function forEachArray(arr, callback, thisArg) { arr.forEach(callback, thisArg); } exports.forEachArray = forEachArray; /** * Iterates over key/value pairs of a map or object. * * @param obj - map or object to iterate * @param callback - a callback function which receives object key as its first * argument and object value as its second argument * @param thisArg - the value of this inside callback */ function forEachObject(obj, callback, thisArg) { if (isMap(obj)) { obj.forEach(function (value, key) { return callback.call(thisArg, key, value); }); } else { for (var key in obj) { /* istanbul ignore else */ if (obj.hasOwnProperty(key)) { callback.call(thisArg, key, obj[key]); } } } } exports.forEachObject = forEachObject; /** * Returns the number of entries in an array or set. * * @param arr - array or set */ function arrayLength(obj) { if (isSet(obj)) { return obj.size; } else { return obj.length; } } exports.arrayLength = arrayLength; /** * Returns the number of entries in a map or object. * * @param obj - map or object */ function objectLength(obj) { if (isMap(obj)) { return obj.size; } else { return Object.keys(obj).length; } } exports.objectLength = objectLength; /** * Gets the value of a key from a map or object. * * @param obj - map or object * @param key - the key to retrieve */ function getObjectValue(obj, key) { if (isMap(obj)) { return obj.get(key); } else { return obj[key]; } } exports.getObjectValue = getObjectValue; /** * Removes a property from a map or object. * * @param obj - map or object * @param key - the key to remove */ function removeObjectValue(obj, key) { if (isMap(obj)) { obj.delete(key); } else { delete obj[key]; } } exports.removeObjectValue = removeObjectValue; /** * Deep clones the given object. * * @param obj - an object */ function clone(obj) { var e_1, _a; if (isFunction(obj)) { return obj; } else if (isArray(obj)) { var result = []; try { for (var obj_1 = __values(obj), obj_1_1 = obj_1.next(); !obj_1_1.done; obj_1_1 = obj_1.next()) { var item = obj_1_1.value; result.push(clone(item)); } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (obj_1_1 && !obj_1_1.done && (_a = obj_1.return)) _a.call(obj_1); } finally { if (e_1) throw e_1.error; } } return result; } else if (isObject(obj)) { var result = {}; for (var key in obj) { /* istanbul ignore next */ if (obj.hasOwnProperty(key)) { var val = obj[key]; result[key] = clone(val); } } return result; } else { return obj; } } exports.clone = clone; /** * Type guard for boolean types * * @param x - a variable to type check */ function isBoolean(x) { return typeof x === "boolean"; } exports.isBoolean = isBoolean; /** * Type guard for numeric types * * @param x - a variable to type check */ function isNumber(x) { return typeof x === "number"; } exports.isNumber = isNumber; /** * Type guard for strings * * @param x - a variable to type check */ function isString(x) { return typeof x === "string"; } exports.isString = isString; /** * Type guard for function objects * * @param x - a variable to type check */ function isFunction(x) { return !!x && Object.prototype.toString.call(x) === '[object Function]'; } exports.isFunction = isFunction; /** * Type guard for JS objects * * _Note:_ Functions are objects too * * @param x - a variable to type check */ function isObject(x) { var type = typeof x; return !!x && (type === 'function' || type === 'object'); } exports.isObject = isObject; /** * Type guard for arrays * * @param x - a variable to type check */ function isArray(x) { return Array.isArray(x); } exports.isArray = isArray; /** * Type guard for sets. * * @param x - a variable to check */ function isSet(x) { return x instanceof Set; } exports.isSet = isSet; /** * Type guard for maps. * * @param x - a variable to check */ function isMap(x) { return x instanceof Map; } exports.isMap = isMap; /** * Determines if `x` is an empty Array or an Object with no own properties. * * @param x - a variable to check */ function isEmpty(x) { if (isArray(x)) { return !x.length; } else if (isSet(x)) { return !x.size; } else if (isMap(x)) { return !x.size; } else if (isObject(x)) { for (var key in x) { if (x.hasOwnProperty(key)) { return false; } } return true; } return false; } exports.isEmpty = isEmpty; /** * Determines if `x` is a plain Object. * * @param x - a variable to check */ function isPlainObject(x) { if (isObject(x)) { var proto = Object.getPrototypeOf(x); var ctor = proto.constructor; return proto && ctor && (typeof ctor === 'function') && (ctor instanceof ctor) && (Function.prototype.toString.call(ctor) === Function.prototype.toString.call(Object)); } return false; } exports.isPlainObject = isPlainObject; /** * Determines if `x` is an iterable Object. * * @param x - a variable to check */ function isIterable(x) { return x && (typeof x[Symbol.iterator] === 'function'); } exports.isIterable = isIterable; /** * Gets the primitive value of an object. */ function getValue(obj) { if (isFunction(obj.valueOf)) { return obj.valueOf(); } else { return obj; } } exports.getValue = getValue; /** * UTF-8 encodes the given string. * * @param input - a string */ function utf8Encode(input) { var bytes = new Uint8Array(input.length * 4); var byteIndex = 0; for (var i = 0; i < input.length; i++) { var char = input.charCodeAt(i); if (char < 128) { bytes[byteIndex++] = char; continue; } else if (char < 2048) { bytes[byteIndex++] = char >> 6 | 192; } else { if (char > 0xd7ff && char < 0xdc00) { if (++i >= input.length) { throw new Error("Incomplete surrogate pair."); } var c2 = input.charCodeAt(i); if (c2 < 0xdc00 || c2 > 0xdfff) { throw new Error("Invalid surrogate character."); } char = 0x10000 + ((char & 0x03ff) << 10) + (c2 & 0x03ff); bytes[byteIndex++] = char >> 18 | 240; bytes[byteIndex++] = char >> 12 & 63 | 128; } else { bytes[byteIndex++] = char >> 12 | 224; } bytes[byteIndex++] = char >> 6 & 63 | 128; } bytes[byteIndex++] = char & 63 | 128; } return bytes.subarray(0, byteIndex); } exports.utf8Encode = utf8Encode; /** * UTF-8 decodes the given byte sequence into a string. * * @param bytes - a byte sequence */ function utf8Decode(bytes) { var result = ""; var i = 0; while (i < bytes.length) { var c = bytes[i++]; if (c > 127) { if (c > 191 && c < 224) { if (i >= bytes.length) { throw new Error("Incomplete 2-byte sequence."); } c = (c & 31) << 6 | bytes[i++] & 63; } else if (c > 223 && c < 240) { if (i + 1 >= bytes.length) { throw new Error("Incomplete 3-byte sequence."); } c = (c & 15) << 12 | (bytes[i++] & 63) << 6 | bytes[i++] & 63; } else if (c > 239 && c < 248) { if (i + 2 >= bytes.length) { throw new Error("Incomplete 4-byte sequence."); } c = (c & 7) << 18 | (bytes[i++] & 63) << 12 | (bytes[i++] & 63) << 6 | bytes[i++] & 63; } else { throw new Error("Unknown multi-byte start."); } } if (c <= 0xffff) { result += String.fromCharCode(c); } else if (c <= 0x10ffff) { c -= 0x10000; result += String.fromCharCode(c >> 10 | 0xd800); result += String.fromCharCode(c & 0x3FF | 0xdc00); } else { throw new Error("Code point exceeds UTF-16 limit."); } } return result; } exports.utf8Decode = utf8Decode; //# sourceMappingURL=index.js.map /***/ }), /***/ 57171: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ var __spreadArray = (this && this.__spreadArray) || function (to, from) { for (var i = 0, il = from.length, j = to.length; i < il; i++, j++) to[j] = from[i]; return to; }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.ContextAPI = void 0; var NoopContextManager_1 = __nccwpck_require__(54118); var global_utils_1 = __nccwpck_require__(85135); var diag_1 = __nccwpck_require__(11877); var API_NAME = 'context'; var NOOP_CONTEXT_MANAGER = new NoopContextManager_1.NoopContextManager(); /** * Singleton object which represents the entry point to the OpenTelemetry Context API */ var ContextAPI = /** @class */ (function () { /** Empty private constructor prevents end users from constructing a new instance of the API */ function ContextAPI() { } /** Get the singleton instance of the Context API */ ContextAPI.getInstance = function () { if (!this._instance) { this._instance = new ContextAPI(); } return this._instance; }; /** * Set the current context manager. * * @returns true if the context manager was successfully registered, else false */ ContextAPI.prototype.setGlobalContextManager = function (contextManager) { return global_utils_1.registerGlobal(API_NAME, contextManager, diag_1.DiagAPI.instance()); }; /** * Get the currently active context */ ContextAPI.prototype.active = function () { return this._getContextManager().active(); }; /** * Execute a function with an active context * * @param context context to be active during function execution * @param fn function to execute in a context * @param thisArg optional receiver to be used for calling fn * @param args optional arguments forwarded to fn */ ContextAPI.prototype.with = function (context, fn, thisArg) { var _a; var args = []; for (var _i = 3; _i < arguments.length; _i++) { args[_i - 3] = arguments[_i]; } return (_a = this._getContextManager()).with.apply(_a, __spreadArray([context, fn, thisArg], args)); }; /** * Bind a context to a target function or event emitter * * @param context context to bind to the event emitter or function. Defaults to the currently active context * @param target function or event emitter to bind */ ContextAPI.prototype.bind = function (context, target) { return this._getContextManager().bind(context, target); }; ContextAPI.prototype._getContextManager = function () { return global_utils_1.getGlobal(API_NAME) || NOOP_CONTEXT_MANAGER; }; /** Disable and remove the global context manager */ ContextAPI.prototype.disable = function () { this._getContextManager().disable(); global_utils_1.unregisterGlobal(API_NAME, diag_1.DiagAPI.instance()); }; return ContextAPI; }()); exports.ContextAPI = ContextAPI; //# sourceMappingURL=context.js.map /***/ }), /***/ 11877: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports.DiagAPI = void 0; var ComponentLogger_1 = __nccwpck_require__(17978); var logLevelLogger_1 = __nccwpck_require__(99639); var types_1 = __nccwpck_require__(78077); var global_utils_1 = __nccwpck_require__(85135); var API_NAME = 'diag'; /** * Singleton object which represents the entry point to the OpenTelemetry internal * diagnostic API */ var DiagAPI = /** @class */ (function () { /** * Private internal constructor * @private */ function DiagAPI() { function _logProxy(funcName) { return function () { var args = []; for (var _i = 0; _i < arguments.length; _i++) { args[_i] = arguments[_i]; } var logger = global_utils_1.getGlobal('diag'); // shortcut if logger not set if (!logger) return; return logger[funcName].apply(logger, args); }; } // Using self local variable for minification purposes as 'this' cannot be minified var self = this; // DiagAPI specific functions self.setLogger = function (logger, logLevel) { var _a, _b; if (logLevel === void 0) { logLevel = types_1.DiagLogLevel.INFO; } if (logger === self) { // There isn't much we can do here. // Logging to the console might break the user application. // Try to log to self. If a logger was previously registered it will receive the log. var err = new Error('Cannot use diag as the logger for itself. Please use a DiagLogger implementation like ConsoleDiagLogger or a custom implementation'); self.error((_a = err.stack) !== null && _a !== void 0 ? _a : err.message); return false; } var oldLogger = global_utils_1.getGlobal('diag'); var newLogger = logLevelLogger_1.createLogLevelDiagLogger(logLevel, logger); // There already is an logger registered. We'll let it know before overwriting it. if (oldLogger) { var stack = (_b = new Error().stack) !== null && _b !== void 0 ? _b : ''; oldLogger.warn("Current logger will be overwritten from " + stack); newLogger.warn("Current logger will overwrite one already registered from " + stack); } return global_utils_1.registerGlobal('diag', newLogger, self, true); }; self.disable = function () { global_utils_1.unregisterGlobal(API_NAME, self); }; self.createComponentLogger = function (options) { return new ComponentLogger_1.DiagComponentLogger(options); }; self.verbose = _logProxy('verbose'); self.debug = _logProxy('debug'); self.info = _logProxy('info'); self.warn = _logProxy('warn'); self.error = _logProxy('error'); } /** Get the singleton instance of the DiagAPI API */ DiagAPI.instance = function () { if (!this._instance) { this._instance = new DiagAPI(); } return this._instance; }; return DiagAPI; }()); exports.DiagAPI = DiagAPI; //# sourceMappingURL=diag.js.map /***/ }), /***/ 89909: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports.PropagationAPI = void 0; var global_utils_1 = __nccwpck_require__(85135); var NoopTextMapPropagator_1 = __nccwpck_require__(72368); var TextMapPropagator_1 = __nccwpck_require__(80865); var context_helpers_1 = __nccwpck_require__(37682); var utils_1 = __nccwpck_require__(28136); var diag_1 = __nccwpck_require__(11877); var API_NAME = 'propagation'; var NOOP_TEXT_MAP_PROPAGATOR = new NoopTextMapPropagator_1.NoopTextMapPropagator(); /** * Singleton object which represents the entry point to the OpenTelemetry Propagation API */ var PropagationAPI = /** @class */ (function () { /** Empty private constructor prevents end users from constructing a new instance of the API */ function PropagationAPI() { this.createBaggage = utils_1.createBaggage; this.getBaggage = context_helpers_1.getBaggage; this.setBaggage = context_helpers_1.setBaggage; this.deleteBaggage = context_helpers_1.deleteBaggage; } /** Get the singleton instance of the Propagator API */ PropagationAPI.getInstance = function () { if (!this._instance) { this._instance = new PropagationAPI(); } return this._instance; }; /** * Set the current propagator. * * @returns true if the propagator was successfully registered, else false */ PropagationAPI.prototype.setGlobalPropagator = function (propagator) { return global_utils_1.registerGlobal(API_NAME, propagator, diag_1.DiagAPI.instance()); }; /** * Inject context into a carrier to be propagated inter-process * * @param context Context carrying tracing data to inject * @param carrier carrier to inject context into * @param setter Function used to set values on the carrier */ PropagationAPI.prototype.inject = function (context, carrier, setter) { if (setter === void 0) { setter = TextMapPropagator_1.defaultTextMapSetter; } return this._getGlobalPropagator().inject(context, carrier, setter); }; /** * Extract context from a carrier * * @param context Context which the newly created context will inherit from * @param carrier Carrier to extract context from * @param getter Function used to extract keys from a carrier */ PropagationAPI.prototype.extract = function (context, carrier, getter) { if (getter === void 0) { getter = TextMapPropagator_1.defaultTextMapGetter; } return this._getGlobalPropagator().extract(context, carrier, getter); }; /** * Return a list of all fields which may be used by the propagator. */ PropagationAPI.prototype.fields = function () { return this._getGlobalPropagator().fields(); }; /** Remove the global propagator */ PropagationAPI.prototype.disable = function () { global_utils_1.unregisterGlobal(API_NAME, diag_1.DiagAPI.instance()); }; PropagationAPI.prototype._getGlobalPropagator = function () { return global_utils_1.getGlobal(API_NAME) || NOOP_TEXT_MAP_PROPAGATOR; }; return PropagationAPI; }()); exports.PropagationAPI = PropagationAPI; //# sourceMappingURL=propagation.js.map /***/ }), /***/ 81539: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports.TraceAPI = void 0; var global_utils_1 = __nccwpck_require__(85135); var ProxyTracerProvider_1 = __nccwpck_require__(2285); var spancontext_utils_1 = __nccwpck_require__(49745); var context_utils_1 = __nccwpck_require__(23326); var diag_1 = __nccwpck_require__(11877); var API_NAME = 'trace'; /** * Singleton object which represents the entry point to the OpenTelemetry Tracing API */ var TraceAPI = /** @class */ (function () { /** Empty private constructor prevents end users from constructing a new instance of the API */ function TraceAPI() { this._proxyTracerProvider = new ProxyTracerProvider_1.ProxyTracerProvider(); this.wrapSpanContext = spancontext_utils_1.wrapSpanContext; this.isSpanContextValid = spancontext_utils_1.isSpanContextValid; this.deleteSpan = context_utils_1.deleteSpan; this.getSpan = context_utils_1.getSpan; this.getSpanContext = context_utils_1.getSpanContext; this.setSpan = context_utils_1.setSpan; this.setSpanContext = context_utils_1.setSpanContext; } /** Get the singleton instance of the Trace API */ TraceAPI.getInstance = function () { if (!this._instance) { this._instance = new TraceAPI(); } return this._instance; }; /** * Set the current global tracer. * * @returns true if the tracer provider was successfully registered, else false */ TraceAPI.prototype.setGlobalTracerProvider = function (provider) { var success = global_utils_1.registerGlobal(API_NAME, this._proxyTracerProvider, diag_1.DiagAPI.instance()); if (success) { this._proxyTracerProvider.setDelegate(provider); } return success; }; /** * Returns the global tracer provider. */ TraceAPI.prototype.getTracerProvider = function () { return global_utils_1.getGlobal(API_NAME) || this._proxyTracerProvider; }; /** * Returns a tracer from the global tracer provider. */ TraceAPI.prototype.getTracer = function (name, version) { return this.getTracerProvider().getTracer(name, version); }; /** Remove the global tracer provider */ TraceAPI.prototype.disable = function () { global_utils_1.unregisterGlobal(API_NAME, diag_1.DiagAPI.instance()); this._proxyTracerProvider = new ProxyTracerProvider_1.ProxyTracerProvider(); }; return TraceAPI; }()); exports.TraceAPI = TraceAPI; //# sourceMappingURL=trace.js.map /***/ }), /***/ 37682: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports.deleteBaggage = exports.setBaggage = exports.getBaggage = void 0; var context_1 = __nccwpck_require__(78242); /** * Baggage key */ var BAGGAGE_KEY = context_1.createContextKey('OpenTelemetry Baggage Key'); /** * Retrieve the current baggage from the given context * * @param {Context} Context that manage all context values * @returns {Baggage} Extracted baggage from the context */ function getBaggage(context) { return context.getValue(BAGGAGE_KEY) || undefined; } exports.getBaggage = getBaggage; /** * Store a baggage in the given context * * @param {Context} Context that manage all context values * @param {Baggage} baggage that will be set in the actual context */ function setBaggage(context, baggage) { return context.setValue(BAGGAGE_KEY, baggage); } exports.setBaggage = setBaggage; /** * Delete the baggage stored in the given context * * @param {Context} Context that manage all context values */ function deleteBaggage(context) { return context.deleteValue(BAGGAGE_KEY); } exports.deleteBaggage = deleteBaggage; //# sourceMappingURL=context-helpers.js.map /***/ }), /***/ 84811: /***/ ((__unused_webpack_module, exports) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports.BaggageImpl = void 0; var BaggageImpl = /** @class */ (function () { function BaggageImpl(entries) { this._entries = entries ? new Map(entries) : new Map(); } BaggageImpl.prototype.getEntry = function (key) { var entry = this._entries.get(key); if (!entry) { return undefined; } return Object.assign({}, entry); }; BaggageImpl.prototype.getAllEntries = function () { return Array.from(this._entries.entries()).map(function (_a) { var k = _a[0], v = _a[1]; return [k, v]; }); }; BaggageImpl.prototype.setEntry = function (key, entry) { var newBaggage = new BaggageImpl(this._entries); newBaggage._entries.set(key, entry); return newBaggage; }; BaggageImpl.prototype.removeEntry = function (key) { var newBaggage = new BaggageImpl(this._entries); newBaggage._entries.delete(key); return newBaggage; }; BaggageImpl.prototype.removeEntries = function () { var keys = []; for (var _i = 0; _i < arguments.length; _i++) { keys[_i] = arguments[_i]; } var newBaggage = new BaggageImpl(this._entries); for (var _a = 0, keys_1 = keys; _a < keys_1.length; _a++) { var key = keys_1[_a]; newBaggage._entries.delete(key); } return newBaggage; }; BaggageImpl.prototype.clear = function () { return new BaggageImpl(); }; return BaggageImpl; }()); exports.BaggageImpl = BaggageImpl; //# sourceMappingURL=baggage-impl.js.map /***/ }), /***/ 23542: /***/ ((__unused_webpack_module, exports) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports.baggageEntryMetadataSymbol = void 0; /** * Symbol used to make BaggageEntryMetadata an opaque type */ exports.baggageEntryMetadataSymbol = Symbol('BaggageEntryMetadata'); //# sourceMappingURL=symbol.js.map /***/ }), /***/ 91508: /***/ ((__unused_webpack_module, exports) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); //# sourceMappingURL=types.js.map /***/ }), /***/ 28136: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports.baggageEntryMetadataFromString = exports.createBaggage = void 0; var diag_1 = __nccwpck_require__(11877); var baggage_impl_1 = __nccwpck_require__(84811); var symbol_1 = __nccwpck_require__(23542); var diag = diag_1.DiagAPI.instance(); /** * Create a new Baggage with optional entries * * @param entries An array of baggage entries the new baggage should contain */ function createBaggage(entries) { if (entries === void 0) { entries = {}; } return new baggage_impl_1.BaggageImpl(new Map(Object.entries(entries))); } exports.createBaggage = createBaggage; /** * Create a serializable BaggageEntryMetadata object from a string. * * @param str string metadata. Format is currently not defined by the spec and has no special meaning. * */ function baggageEntryMetadataFromString(str) { if (typeof str !== 'string') { diag.error("Cannot create baggage metadata from unknown type: " + typeof str); str = ''; } return { __TYPE__: symbol_1.baggageEntryMetadataSymbol, toString: function () { return str; }, }; } exports.baggageEntryMetadataFromString = baggageEntryMetadataFromString; //# sourceMappingURL=utils.js.map /***/ }), /***/ 14447: /***/ ((__unused_webpack_module, exports) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); //# sourceMappingURL=Exception.js.map /***/ }), /***/ 92358: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); //# sourceMappingURL=Time.js.map /***/ }), /***/ 54118: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ var __spreadArray = (this && this.__spreadArray) || function (to, from) { for (var i = 0, il = from.length, j = to.length; i < il; i++, j++) to[j] = from[i]; return to; }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.NoopContextManager = void 0; var context_1 = __nccwpck_require__(78242); var NoopContextManager = /** @class */ (function () { function NoopContextManager() { } NoopContextManager.prototype.active = function () { return context_1.ROOT_CONTEXT; }; NoopContextManager.prototype.with = function (_context, fn, thisArg) { var args = []; for (var _i = 3; _i < arguments.length; _i++) { args[_i - 3] = arguments[_i]; } return fn.call.apply(fn, __spreadArray([thisArg], args)); }; NoopContextManager.prototype.bind = function (_context, target) { return target; }; NoopContextManager.prototype.enable = function () { return this; }; NoopContextManager.prototype.disable = function () { return this; }; return NoopContextManager; }()); exports.NoopContextManager = NoopContextManager; //# sourceMappingURL=NoopContextManager.js.map /***/ }), /***/ 78242: /***/ ((__unused_webpack_module, exports) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports.ROOT_CONTEXT = exports.createContextKey = void 0; /** Get a key to uniquely identify a context value */ function createContextKey(description) { // The specification states that for the same input, multiple calls should // return different keys. Due to the nature of the JS dependency management // system, this creates problems where multiple versions of some package // could hold different keys for the same property. // // Therefore, we use Symbol.for which returns the same key for the same input. return Symbol.for(description); } exports.createContextKey = createContextKey; var BaseContext = /** @class */ (function () { /** * Construct a new context which inherits values from an optional parent context. * * @param parentContext a context from which to inherit values */ function BaseContext(parentContext) { // for minification var self = this; self._currentContext = parentContext ? new Map(parentContext) : new Map(); self.getValue = function (key) { return self._currentContext.get(key); }; self.setValue = function (key, value) { var context = new BaseContext(self._currentContext); context._currentContext.set(key, value); return context; }; self.deleteValue = function (key) { var context = new BaseContext(self._currentContext); context._currentContext.delete(key); return context; }; } return BaseContext; }()); /** The root context is used as the default parent context when there is no active context */ exports.ROOT_CONTEXT = new BaseContext(); //# sourceMappingURL=context.js.map /***/ }), /***/ 36504: /***/ ((__unused_webpack_module, exports) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); //# sourceMappingURL=types.js.map /***/ }), /***/ 17978: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports.DiagComponentLogger = void 0; var global_utils_1 = __nccwpck_require__(85135); /** * Component Logger which is meant to be used as part of any component which * will add automatically additional namespace in front of the log message. * It will then forward all message to global diag logger * @example * const cLogger = diag.createComponentLogger({ namespace: '@opentelemetry/instrumentation-http' }); * cLogger.debug('test'); * // @opentelemetry/instrumentation-http test */ var DiagComponentLogger = /** @class */ (function () { function DiagComponentLogger(props) { this._namespace = props.namespace || 'DiagComponentLogger'; } DiagComponentLogger.prototype.debug = function () { var args = []; for (var _i = 0; _i < arguments.length; _i++) { args[_i] = arguments[_i]; } return logProxy('debug', this._namespace, args); }; DiagComponentLogger.prototype.error = function () { var args = []; for (var _i = 0; _i < arguments.length; _i++) { args[_i] = arguments[_i]; } return logProxy('error', this._namespace, args); }; DiagComponentLogger.prototype.info = function () { var args = []; for (var _i = 0; _i < arguments.length; _i++) { args[_i] = arguments[_i]; } return logProxy('info', this._namespace, args); }; DiagComponentLogger.prototype.warn = function () { var args = []; for (var _i = 0; _i < arguments.length; _i++) { args[_i] = arguments[_i]; } return logProxy('warn', this._namespace, args); }; DiagComponentLogger.prototype.verbose = function () { var args = []; for (var _i = 0; _i < arguments.length; _i++) { args[_i] = arguments[_i]; } return logProxy('verbose', this._namespace, args); }; return DiagComponentLogger; }()); exports.DiagComponentLogger = DiagComponentLogger; function logProxy(funcName, namespace, args) { var logger = global_utils_1.getGlobal('diag'); // shortcut if logger not set if (!logger) { return; } args.unshift(namespace); return logger[funcName].apply(logger, args); } //# sourceMappingURL=ComponentLogger.js.map /***/ }), /***/ 3041: /***/ ((__unused_webpack_module, exports) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports.DiagConsoleLogger = void 0; var consoleMap = [ { n: 'error', c: 'error' }, { n: 'warn', c: 'warn' }, { n: 'info', c: 'info' }, { n: 'debug', c: 'debug' }, { n: 'verbose', c: 'trace' }, ]; /** * A simple Immutable Console based diagnostic logger which will output any messages to the Console. * If you want to limit the amount of logging to a specific level or lower use the * {@link createLogLevelDiagLogger} */ var DiagConsoleLogger = /** @class */ (function () { function DiagConsoleLogger() { function _consoleFunc(funcName) { return function () { var args = []; for (var _i = 0; _i < arguments.length; _i++) { args[_i] = arguments[_i]; } if (console) { // Some environments only expose the console when the F12 developer console is open // eslint-disable-next-line no-console var theFunc = console[funcName]; if (typeof theFunc !== 'function') { // Not all environments support all functions // eslint-disable-next-line no-console theFunc = console.log; } // One last final check if (typeof theFunc === 'function') { return theFunc.apply(console, args); } } }; } for (var i = 0; i < consoleMap.length; i++) { this[consoleMap[i].n] = _consoleFunc(consoleMap[i].c); } } return DiagConsoleLogger; }()); exports.DiagConsoleLogger = DiagConsoleLogger; //# sourceMappingURL=consoleLogger.js.map /***/ }), /***/ 31634: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } }); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __exportStar = (this && this.__exportStar) || function(m, exports) { for (var p in m) if (p !== "default" && !Object.prototype.hasOwnProperty.call(exports, p)) __createBinding(exports, m, p); }; Object.defineProperty(exports, "__esModule", ({ value: true })); __exportStar(__nccwpck_require__(3041), exports); __exportStar(__nccwpck_require__(78077), exports); //# sourceMappingURL=index.js.map /***/ }), /***/ 99639: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports.createLogLevelDiagLogger = void 0; var types_1 = __nccwpck_require__(78077); function createLogLevelDiagLogger(maxLevel, logger) { if (maxLevel < types_1.DiagLogLevel.NONE) { maxLevel = types_1.DiagLogLevel.NONE; } else if (maxLevel > types_1.DiagLogLevel.ALL) { maxLevel = types_1.DiagLogLevel.ALL; } // In case the logger is null or undefined logger = logger || {}; function _filterFunc(funcName, theLevel) { var theFunc = logger[funcName]; if (typeof theFunc === 'function' && maxLevel >= theLevel) { return theFunc.bind(logger); } return function () { }; } return { error: _filterFunc('error', types_1.DiagLogLevel.ERROR), warn: _filterFunc('warn', types_1.DiagLogLevel.WARN), info: _filterFunc('info', types_1.DiagLogLevel.INFO), debug: _filterFunc('debug', types_1.DiagLogLevel.DEBUG), verbose: _filterFunc('verbose', types_1.DiagLogLevel.VERBOSE), }; } exports.createLogLevelDiagLogger = createLogLevelDiagLogger; //# sourceMappingURL=logLevelLogger.js.map /***/ }), /***/ 78077: /***/ ((__unused_webpack_module, exports) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports.DiagLogLevel = void 0; /** * Defines the available internal logging levels for the diagnostic logger, the numeric values * of the levels are defined to match the original values from the initial LogLevel to avoid * compatibility/migration issues for any implementation that assume the numeric ordering. */ var DiagLogLevel; (function (DiagLogLevel) { /** Diagnostic Logging level setting to disable all logging (except and forced logs) */ DiagLogLevel[DiagLogLevel["NONE"] = 0] = "NONE"; /** Identifies an error scenario */ DiagLogLevel[DiagLogLevel["ERROR"] = 30] = "ERROR"; /** Identifies a warning scenario */ DiagLogLevel[DiagLogLevel["WARN"] = 50] = "WARN"; /** General informational log message */ DiagLogLevel[DiagLogLevel["INFO"] = 60] = "INFO"; /** General debug log message */ DiagLogLevel[DiagLogLevel["DEBUG"] = 70] = "DEBUG"; /** * Detailed trace level logging should only be used for development, should only be set * in a development environment. */ DiagLogLevel[DiagLogLevel["VERBOSE"] = 80] = "VERBOSE"; /** Used to set the logging level to include all logging */ DiagLogLevel[DiagLogLevel["ALL"] = 9999] = "ALL"; })(DiagLogLevel = exports.DiagLogLevel || (exports.DiagLogLevel = {})); //# sourceMappingURL=types.js.map /***/ }), /***/ 65163: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } }); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __exportStar = (this && this.__exportStar) || function(m, exports) { for (var p in m) if (p !== "default" && !Object.prototype.hasOwnProperty.call(exports, p)) __createBinding(exports, m, p); }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.diag = exports.propagation = exports.trace = exports.context = exports.INVALID_SPAN_CONTEXT = exports.INVALID_TRACEID = exports.INVALID_SPANID = exports.isValidSpanId = exports.isValidTraceId = exports.isSpanContextValid = exports.baggageEntryMetadataFromString = void 0; __exportStar(__nccwpck_require__(91508), exports); var utils_1 = __nccwpck_require__(28136); Object.defineProperty(exports, "baggageEntryMetadataFromString", ({ enumerable: true, get: function () { return utils_1.baggageEntryMetadataFromString; } })); __exportStar(__nccwpck_require__(14447), exports); __exportStar(__nccwpck_require__(92358), exports); __exportStar(__nccwpck_require__(31634), exports); __exportStar(__nccwpck_require__(80865), exports); __exportStar(__nccwpck_require__(57492), exports); __exportStar(__nccwpck_require__(44023), exports); __exportStar(__nccwpck_require__(43503), exports); __exportStar(__nccwpck_require__(2285), exports); __exportStar(__nccwpck_require__(19671), exports); __exportStar(__nccwpck_require__(33209), exports); __exportStar(__nccwpck_require__(15769), exports); __exportStar(__nccwpck_require__(31424), exports); __exportStar(__nccwpck_require__(4416), exports); __exportStar(__nccwpck_require__(20955), exports); __exportStar(__nccwpck_require__(48845), exports); __exportStar(__nccwpck_require__(26905), exports); __exportStar(__nccwpck_require__(88384), exports); __exportStar(__nccwpck_require__(30891), exports); __exportStar(__nccwpck_require__(33168), exports); var spancontext_utils_1 = __nccwpck_require__(49745); Object.defineProperty(exports, "isSpanContextValid", ({ enumerable: true, get: function () { return spancontext_utils_1.isSpanContextValid; } })); Object.defineProperty(exports, "isValidTraceId", ({ enumerable: true, get: function () { return spancontext_utils_1.isValidTraceId; } })); Object.defineProperty(exports, "isValidSpanId", ({ enumerable: true, get: function () { return spancontext_utils_1.isValidSpanId; } })); var invalid_span_constants_1 = __nccwpck_require__(91760); Object.defineProperty(exports, "INVALID_SPANID", ({ enumerable: true, get: function () { return invalid_span_constants_1.INVALID_SPANID; } })); Object.defineProperty(exports, "INVALID_TRACEID", ({ enumerable: true, get: function () { return invalid_span_constants_1.INVALID_TRACEID; } })); Object.defineProperty(exports, "INVALID_SPAN_CONTEXT", ({ enumerable: true, get: function () { return invalid_span_constants_1.INVALID_SPAN_CONTEXT; } })); __exportStar(__nccwpck_require__(78242), exports); __exportStar(__nccwpck_require__(36504), exports); var context_1 = __nccwpck_require__(57171); /** Entrypoint for context API */ exports.context = context_1.ContextAPI.getInstance(); var trace_1 = __nccwpck_require__(81539); /** Entrypoint for trace API */ exports.trace = trace_1.TraceAPI.getInstance(); var propagation_1 = __nccwpck_require__(89909); /** Entrypoint for propagation API */ exports.propagation = propagation_1.PropagationAPI.getInstance(); var diag_1 = __nccwpck_require__(11877); /** * Entrypoint for Diag API. * Defines Diagnostic handler used for internal diagnostic logging operations. * The default provides a Noop DiagLogger implementation which may be changed via the * diag.setLogger(logger: DiagLogger) function. */ exports.diag = diag_1.DiagAPI.instance(); exports["default"] = { trace: exports.trace, context: exports.context, propagation: exports.propagation, diag: exports.diag, }; //# sourceMappingURL=index.js.map /***/ }), /***/ 85135: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports.unregisterGlobal = exports.getGlobal = exports.registerGlobal = void 0; var platform_1 = __nccwpck_require__(99957); var version_1 = __nccwpck_require__(98996); var semver_1 = __nccwpck_require__(81522); var major = version_1.VERSION.split('.')[0]; var GLOBAL_OPENTELEMETRY_API_KEY = Symbol.for("opentelemetry.js.api." + major); var _global = platform_1._globalThis; function registerGlobal(type, instance, diag, allowOverride) { var _a; if (allowOverride === void 0) { allowOverride = false; } var api = (_global[GLOBAL_OPENTELEMETRY_API_KEY] = (_a = _global[GLOBAL_OPENTELEMETRY_API_KEY]) !== null && _a !== void 0 ? _a : { version: version_1.VERSION, }); if (!allowOverride && api[type]) { // already registered an API of this type var err = new Error("@opentelemetry/api: Attempted duplicate registration of API: " + type); diag.error(err.stack || err.message); return false; } if (api.version !== version_1.VERSION) { // All registered APIs must be of the same version exactly var err = new Error('@opentelemetry/api: All API registration versions must match'); diag.error(err.stack || err.message); return false; } api[type] = instance; diag.debug("@opentelemetry/api: Registered a global for " + type + " v" + version_1.VERSION + "."); return true; } exports.registerGlobal = registerGlobal; function getGlobal(type) { var _a, _b; var globalVersion = (_a = _global[GLOBAL_OPENTELEMETRY_API_KEY]) === null || _a === void 0 ? void 0 : _a.version; if (!globalVersion || !semver_1.isCompatible(globalVersion)) { return; } return (_b = _global[GLOBAL_OPENTELEMETRY_API_KEY]) === null || _b === void 0 ? void 0 : _b[type]; } exports.getGlobal = getGlobal; function unregisterGlobal(type, diag) { diag.debug("@opentelemetry/api: Unregistering a global for " + type + " v" + version_1.VERSION + "."); var api = _global[GLOBAL_OPENTELEMETRY_API_KEY]; if (api) { delete api[type]; } } exports.unregisterGlobal = unregisterGlobal; //# sourceMappingURL=global-utils.js.map /***/ }), /***/ 81522: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports.isCompatible = exports._makeCompatibilityCheck = void 0; var version_1 = __nccwpck_require__(98996); var re = /^(\d+)\.(\d+)\.(\d+)(-(.+))?$/; /** * Create a function to test an API version to see if it is compatible with the provided ownVersion. * * The returned function has the following semantics: * - Exact match is always compatible * - Major versions must match exactly * - 1.x package cannot use global 2.x package * - 2.x package cannot use global 1.x package * - The minor version of the API module requesting access to the global API must be less than or equal to the minor version of this API * - 1.3 package may use 1.4 global because the later global contains all functions 1.3 expects * - 1.4 package may NOT use 1.3 global because it may try to call functions which don't exist on 1.3 * - If the major version is 0, the minor version is treated as the major and the patch is treated as the minor * - Patch and build tag differences are not considered at this time * * @param ownVersion version which should be checked against */ function _makeCompatibilityCheck(ownVersion) { var acceptedVersions = new Set([ownVersion]); var rejectedVersions = new Set(); var myVersionMatch = ownVersion.match(re); if (!myVersionMatch) { // we cannot guarantee compatibility so we always return noop return function () { return false; }; } var ownVersionParsed = { major: +myVersionMatch[1], minor: +myVersionMatch[2], patch: +myVersionMatch[3], prerelease: myVersionMatch[4], }; // if ownVersion has a prerelease tag, versions must match exactly if (ownVersionParsed.prerelease != null) { return function isExactmatch(globalVersion) { return globalVersion === ownVersion; }; } function _reject(v) { rejectedVersions.add(v); return false; } function _accept(v) { acceptedVersions.add(v); return true; } return function isCompatible(globalVersion) { if (acceptedVersions.has(globalVersion)) { return true; } if (rejectedVersions.has(globalVersion)) { return false; } var globalVersionMatch = globalVersion.match(re); if (!globalVersionMatch) { // cannot parse other version // we cannot guarantee compatibility so we always noop return _reject(globalVersion); } var globalVersionParsed = { major: +globalVersionMatch[1], minor: +globalVersionMatch[2], patch: +globalVersionMatch[3], prerelease: globalVersionMatch[4], }; // if globalVersion has a prerelease tag, versions must match exactly if (globalVersionParsed.prerelease != null) { return _reject(globalVersion); } // major versions must match if (ownVersionParsed.major !== globalVersionParsed.major) { return _reject(globalVersion); } if (ownVersionParsed.major === 0) { if (ownVersionParsed.minor === globalVersionParsed.minor && ownVersionParsed.patch <= globalVersionParsed.patch) { return _accept(globalVersion); } return _reject(globalVersion); } if (ownVersionParsed.minor <= globalVersionParsed.minor) { return _accept(globalVersion); } return _reject(globalVersion); }; } exports._makeCompatibilityCheck = _makeCompatibilityCheck; /** * Test an API version to see if it is compatible with this API. * * - Exact match is always compatible * - Major versions must match exactly * - 1.x package cannot use global 2.x package * - 2.x package cannot use global 1.x package * - The minor version of the API module requesting access to the global API must be less than or equal to the minor version of this API * - 1.3 package may use 1.4 global because the later global contains all functions 1.3 expects * - 1.4 package may NOT use 1.3 global because it may try to call functions which don't exist on 1.3 * - If the major version is 0, the minor version is treated as the major and the patch is treated as the minor * - Patch and build tag differences are not considered at this time * * @param version version of the API requesting an instance of the global API */ exports.isCompatible = _makeCompatibilityCheck(version_1.VERSION); //# sourceMappingURL=semver.js.map /***/ }), /***/ 99957: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } }); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __exportStar = (this && this.__exportStar) || function(m, exports) { for (var p in m) if (p !== "default" && !Object.prototype.hasOwnProperty.call(exports, p)) __createBinding(exports, m, p); }; Object.defineProperty(exports, "__esModule", ({ value: true })); __exportStar(__nccwpck_require__(87200), exports); //# sourceMappingURL=index.js.map /***/ }), /***/ 89406: /***/ ((__unused_webpack_module, exports) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports._globalThis = void 0; /** only globals that common to node and browsers are allowed */ // eslint-disable-next-line node/no-unsupported-features/es-builtins exports._globalThis = typeof globalThis === 'object' ? globalThis : global; //# sourceMappingURL=globalThis.js.map /***/ }), /***/ 87200: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } }); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __exportStar = (this && this.__exportStar) || function(m, exports) { for (var p in m) if (p !== "default" && !Object.prototype.hasOwnProperty.call(exports, p)) __createBinding(exports, m, p); }; Object.defineProperty(exports, "__esModule", ({ value: true })); __exportStar(__nccwpck_require__(89406), exports); //# sourceMappingURL=index.js.map /***/ }), /***/ 72368: /***/ ((__unused_webpack_module, exports) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports.NoopTextMapPropagator = void 0; /** * No-op implementations of {@link TextMapPropagator}. */ var NoopTextMapPropagator = /** @class */ (function () { function NoopTextMapPropagator() { } /** Noop inject function does nothing */ NoopTextMapPropagator.prototype.inject = function (_context, _carrier) { }; /** Noop extract function does nothing and returns the input context */ NoopTextMapPropagator.prototype.extract = function (context, _carrier) { return context; }; NoopTextMapPropagator.prototype.fields = function () { return []; }; return NoopTextMapPropagator; }()); exports.NoopTextMapPropagator = NoopTextMapPropagator; //# sourceMappingURL=NoopTextMapPropagator.js.map /***/ }), /***/ 80865: /***/ ((__unused_webpack_module, exports) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports.defaultTextMapSetter = exports.defaultTextMapGetter = void 0; exports.defaultTextMapGetter = { get: function (carrier, key) { if (carrier == null) { return undefined; } return carrier[key]; }, keys: function (carrier) { if (carrier == null) { return []; } return Object.keys(carrier); }, }; exports.defaultTextMapSetter = { set: function (carrier, key, value) { if (carrier == null) { return; } carrier[key] = value; }, }; //# sourceMappingURL=TextMapPropagator.js.map /***/ }), /***/ 81462: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports.NonRecordingSpan = void 0; var invalid_span_constants_1 = __nccwpck_require__(91760); /** * The NonRecordingSpan is the default {@link Span} that is used when no Span * implementation is available. All operations are no-op including context * propagation. */ var NonRecordingSpan = /** @class */ (function () { function NonRecordingSpan(_spanContext) { if (_spanContext === void 0) { _spanContext = invalid_span_constants_1.INVALID_SPAN_CONTEXT; } this._spanContext = _spanContext; } // Returns a SpanContext. NonRecordingSpan.prototype.spanContext = function () { return this._spanContext; }; // By default does nothing NonRecordingSpan.prototype.setAttribute = function (_key, _value) { return this; }; // By default does nothing NonRecordingSpan.prototype.setAttributes = function (_attributes) { return this; }; // By default does nothing NonRecordingSpan.prototype.addEvent = function (_name, _attributes) { return this; }; // By default does nothing NonRecordingSpan.prototype.setStatus = function (_status) { return this; }; // By default does nothing NonRecordingSpan.prototype.updateName = function (_name) { return this; }; // By default does nothing NonRecordingSpan.prototype.end = function (_endTime) { }; // isRecording always returns false for NonRecordingSpan. NonRecordingSpan.prototype.isRecording = function () { return false; }; // By default does nothing NonRecordingSpan.prototype.recordException = function (_exception, _time) { }; return NonRecordingSpan; }()); exports.NonRecordingSpan = NonRecordingSpan; //# sourceMappingURL=NonRecordingSpan.js.map /***/ }), /***/ 17606: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports.NoopTracer = void 0; var context_1 = __nccwpck_require__(57171); var context_utils_1 = __nccwpck_require__(23326); var NonRecordingSpan_1 = __nccwpck_require__(81462); var spancontext_utils_1 = __nccwpck_require__(49745); var context = context_1.ContextAPI.getInstance(); /** * No-op implementations of {@link Tracer}. */ var NoopTracer = /** @class */ (function () { function NoopTracer() { } // startSpan starts a noop span. NoopTracer.prototype.startSpan = function (name, options, context) { var root = Boolean(options === null || options === void 0 ? void 0 : options.root); if (root) { return new NonRecordingSpan_1.NonRecordingSpan(); } var parentFromContext = context && context_utils_1.getSpanContext(context); if (isSpanContext(parentFromContext) && spancontext_utils_1.isSpanContextValid(parentFromContext)) { return new NonRecordingSpan_1.NonRecordingSpan(parentFromContext); } else { return new NonRecordingSpan_1.NonRecordingSpan(); } }; NoopTracer.prototype.startActiveSpan = function (name, arg2, arg3, arg4) { var opts; var ctx; var fn; if (arguments.length < 2) { return; } else if (arguments.length === 2) { fn = arg2; } else if (arguments.length === 3) { opts = arg2; fn = arg3; } else { opts = arg2; ctx = arg3; fn = arg4; } var parentContext = ctx !== null && ctx !== void 0 ? ctx : context.active(); var span = this.startSpan(name, opts, parentContext); var contextWithSpanSet = context_utils_1.setSpan(parentContext, span); return context.with(contextWithSpanSet, fn, undefined, span); }; return NoopTracer; }()); exports.NoopTracer = NoopTracer; function isSpanContext(spanContext) { return (typeof spanContext === 'object' && typeof spanContext['spanId'] === 'string' && typeof spanContext['traceId'] === 'string' && typeof spanContext['traceFlags'] === 'number'); } //# sourceMappingURL=NoopTracer.js.map /***/ }), /***/ 23259: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports.NoopTracerProvider = void 0; var NoopTracer_1 = __nccwpck_require__(17606); /** * An implementation of the {@link TracerProvider} which returns an impotent * Tracer for all calls to `getTracer`. * * All operations are no-op. */ var NoopTracerProvider = /** @class */ (function () { function NoopTracerProvider() { } NoopTracerProvider.prototype.getTracer = function (_name, _version) { return new NoopTracer_1.NoopTracer(); }; return NoopTracerProvider; }()); exports.NoopTracerProvider = NoopTracerProvider; //# sourceMappingURL=NoopTracerProvider.js.map /***/ }), /***/ 43503: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports.ProxyTracer = void 0; var NoopTracer_1 = __nccwpck_require__(17606); var NOOP_TRACER = new NoopTracer_1.NoopTracer(); /** * Proxy tracer provided by the proxy tracer provider */ var ProxyTracer = /** @class */ (function () { function ProxyTracer(_provider, name, version) { this._provider = _provider; this.name = name; this.version = version; } ProxyTracer.prototype.startSpan = function (name, options, context) { return this._getTracer().startSpan(name, options, context); }; ProxyTracer.prototype.startActiveSpan = function (_name, _options, _context, _fn) { var tracer = this._getTracer(); return Reflect.apply(tracer.startActiveSpan, tracer, arguments); }; /** * Try to get a tracer from the proxy tracer provider. * If the proxy tracer provider has no delegate, return a noop tracer. */ ProxyTracer.prototype._getTracer = function () { if (this._delegate) { return this._delegate; } var tracer = this._provider.getDelegateTracer(this.name, this.version); if (!tracer) { return NOOP_TRACER; } this._delegate = tracer; return this._delegate; }; return ProxyTracer; }()); exports.ProxyTracer = ProxyTracer; //# sourceMappingURL=ProxyTracer.js.map /***/ }), /***/ 2285: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports.ProxyTracerProvider = void 0; var ProxyTracer_1 = __nccwpck_require__(43503); var NoopTracerProvider_1 = __nccwpck_require__(23259); var NOOP_TRACER_PROVIDER = new NoopTracerProvider_1.NoopTracerProvider(); /** * Tracer provider which provides {@link ProxyTracer}s. * * Before a delegate is set, tracers provided are NoOp. * When a delegate is set, traces are provided from the delegate. * When a delegate is set after tracers have already been provided, * all tracers already provided will use the provided delegate implementation. */ var ProxyTracerProvider = /** @class */ (function () { function ProxyTracerProvider() { } /** * Get a {@link ProxyTracer} */ ProxyTracerProvider.prototype.getTracer = function (name, version) { var _a; return ((_a = this.getDelegateTracer(name, version)) !== null && _a !== void 0 ? _a : new ProxyTracer_1.ProxyTracer(this, name, version)); }; ProxyTracerProvider.prototype.getDelegate = function () { var _a; return (_a = this._delegate) !== null && _a !== void 0 ? _a : NOOP_TRACER_PROVIDER; }; /** * Set the delegate tracer provider */ ProxyTracerProvider.prototype.setDelegate = function (delegate) { this._delegate = delegate; }; ProxyTracerProvider.prototype.getDelegateTracer = function (name, version) { var _a; return (_a = this._delegate) === null || _a === void 0 ? void 0 : _a.getTracer(name, version); }; return ProxyTracerProvider; }()); exports.ProxyTracerProvider = ProxyTracerProvider; //# sourceMappingURL=ProxyTracerProvider.js.map /***/ }), /***/ 19671: /***/ ((__unused_webpack_module, exports) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); //# sourceMappingURL=Sampler.js.map /***/ }), /***/ 33209: /***/ ((__unused_webpack_module, exports) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports.SamplingDecision = void 0; /** * A sampling decision that determines how a {@link Span} will be recorded * and collected. */ var SamplingDecision; (function (SamplingDecision) { /** * `Span.isRecording() === false`, span will not be recorded and all events * and attributes will be dropped. */ SamplingDecision[SamplingDecision["NOT_RECORD"] = 0] = "NOT_RECORD"; /** * `Span.isRecording() === true`, but `Sampled` flag in {@link TraceFlags} * MUST NOT be set. */ SamplingDecision[SamplingDecision["RECORD"] = 1] = "RECORD"; /** * `Span.isRecording() === true` AND `Sampled` flag in {@link TraceFlags} * MUST be set. */ SamplingDecision[SamplingDecision["RECORD_AND_SAMPLED"] = 2] = "RECORD_AND_SAMPLED"; })(SamplingDecision = exports.SamplingDecision || (exports.SamplingDecision = {})); //# sourceMappingURL=SamplingResult.js.map /***/ }), /***/ 20955: /***/ ((__unused_webpack_module, exports) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); //# sourceMappingURL=SpanOptions.js.map /***/ }), /***/ 57492: /***/ ((__unused_webpack_module, exports) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); //# sourceMappingURL=attributes.js.map /***/ }), /***/ 23326: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports.getSpanContext = exports.setSpanContext = exports.deleteSpan = exports.setSpan = exports.getSpan = void 0; var context_1 = __nccwpck_require__(78242); var NonRecordingSpan_1 = __nccwpck_require__(81462); /** * span key */ var SPAN_KEY = context_1.createContextKey('OpenTelemetry Context Key SPAN'); /** * Return the span if one exists * * @param context context to get span from */ function getSpan(context) { return context.getValue(SPAN_KEY) || undefined; } exports.getSpan = getSpan; /** * Set the span on a context * * @param context context to use as parent * @param span span to set active */ function setSpan(context, span) { return context.setValue(SPAN_KEY, span); } exports.setSpan = setSpan; /** * Remove current span stored in the context * * @param context context to delete span from */ function deleteSpan(context) { return context.deleteValue(SPAN_KEY); } exports.deleteSpan = deleteSpan; /** * Wrap span context in a NoopSpan and set as span in a new * context * * @param context context to set active span on * @param spanContext span context to be wrapped */ function setSpanContext(context, spanContext) { return setSpan(context, new NonRecordingSpan_1.NonRecordingSpan(spanContext)); } exports.setSpanContext = setSpanContext; /** * Get the span context of the span if it exists. * * @param context context to get values from */ function getSpanContext(context) { var _a; return (_a = getSpan(context)) === null || _a === void 0 ? void 0 : _a.spanContext(); } exports.getSpanContext = getSpanContext; //# sourceMappingURL=context-utils.js.map /***/ }), /***/ 91760: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports.INVALID_SPAN_CONTEXT = exports.INVALID_TRACEID = exports.INVALID_SPANID = void 0; var trace_flags_1 = __nccwpck_require__(26905); exports.INVALID_SPANID = '0000000000000000'; exports.INVALID_TRACEID = '00000000000000000000000000000000'; exports.INVALID_SPAN_CONTEXT = { traceId: exports.INVALID_TRACEID, spanId: exports.INVALID_SPANID, traceFlags: trace_flags_1.TraceFlags.NONE, }; //# sourceMappingURL=invalid-span-constants.js.map /***/ }), /***/ 44023: /***/ ((__unused_webpack_module, exports) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); //# sourceMappingURL=link.js.map /***/ }), /***/ 4416: /***/ ((__unused_webpack_module, exports) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); //# sourceMappingURL=span.js.map /***/ }), /***/ 15769: /***/ ((__unused_webpack_module, exports) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); //# sourceMappingURL=span_context.js.map /***/ }), /***/ 31424: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.SpanKind = void 0; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ var SpanKind; (function (SpanKind) { /** Default value. Indicates that the span is used internally. */ SpanKind[SpanKind["INTERNAL"] = 0] = "INTERNAL"; /** * Indicates that the span covers server-side handling of an RPC or other * remote request. */ SpanKind[SpanKind["SERVER"] = 1] = "SERVER"; /** * Indicates that the span covers the client-side wrapper around an RPC or * other remote request. */ SpanKind[SpanKind["CLIENT"] = 2] = "CLIENT"; /** * Indicates that the span describes producer sending a message to a * broker. Unlike client and server, there is no direct critical path latency * relationship between producer and consumer spans. */ SpanKind[SpanKind["PRODUCER"] = 3] = "PRODUCER"; /** * Indicates that the span describes consumer receiving a message from a * broker. Unlike client and server, there is no direct critical path latency * relationship between producer and consumer spans. */ SpanKind[SpanKind["CONSUMER"] = 4] = "CONSUMER"; })(SpanKind = exports.SpanKind || (exports.SpanKind = {})); //# sourceMappingURL=span_kind.js.map /***/ }), /***/ 49745: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.wrapSpanContext = exports.isSpanContextValid = exports.isValidSpanId = exports.isValidTraceId = void 0; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ var invalid_span_constants_1 = __nccwpck_require__(91760); var NonRecordingSpan_1 = __nccwpck_require__(81462); var VALID_TRACEID_REGEX = /^([0-9a-f]{32})$/i; var VALID_SPANID_REGEX = /^[0-9a-f]{16}$/i; function isValidTraceId(traceId) { return VALID_TRACEID_REGEX.test(traceId) && traceId !== invalid_span_constants_1.INVALID_TRACEID; } exports.isValidTraceId = isValidTraceId; function isValidSpanId(spanId) { return VALID_SPANID_REGEX.test(spanId) && spanId !== invalid_span_constants_1.INVALID_SPANID; } exports.isValidSpanId = isValidSpanId; /** * Returns true if this {@link SpanContext} is valid. * @return true if this {@link SpanContext} is valid. */ function isSpanContextValid(spanContext) { return (isValidTraceId(spanContext.traceId) && isValidSpanId(spanContext.spanId)); } exports.isSpanContextValid = isSpanContextValid; /** * Wrap the given {@link SpanContext} in a new non-recording {@link Span} * * @param spanContext span context to be wrapped * @returns a new non-recording {@link Span} with the provided context */ function wrapSpanContext(spanContext) { return new NonRecordingSpan_1.NonRecordingSpan(spanContext); } exports.wrapSpanContext = wrapSpanContext; //# sourceMappingURL=spancontext-utils.js.map /***/ }), /***/ 48845: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.SpanStatusCode = void 0; /** * An enumeration of status codes. */ var SpanStatusCode; (function (SpanStatusCode) { /** * The default status. */ SpanStatusCode[SpanStatusCode["UNSET"] = 0] = "UNSET"; /** * The operation has been validated by an Application developer or * Operator to have completed successfully. */ SpanStatusCode[SpanStatusCode["OK"] = 1] = "OK"; /** * The operation contains an error. */ SpanStatusCode[SpanStatusCode["ERROR"] = 2] = "ERROR"; })(SpanStatusCode = exports.SpanStatusCode || (exports.SpanStatusCode = {})); //# sourceMappingURL=status.js.map /***/ }), /***/ 26905: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.TraceFlags = void 0; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ var TraceFlags; (function (TraceFlags) { /** Represents no flag set. */ TraceFlags[TraceFlags["NONE"] = 0] = "NONE"; /** Bit to represent whether trace is sampled in trace flags. */ TraceFlags[TraceFlags["SAMPLED"] = 1] = "SAMPLED"; })(TraceFlags = exports.TraceFlags || (exports.TraceFlags = {})); //# sourceMappingURL=trace_flags.js.map /***/ }), /***/ 88384: /***/ ((__unused_webpack_module, exports) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); //# sourceMappingURL=trace_state.js.map /***/ }), /***/ 33168: /***/ ((__unused_webpack_module, exports) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); //# sourceMappingURL=tracer.js.map /***/ }), /***/ 30891: /***/ ((__unused_webpack_module, exports) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); //# sourceMappingURL=tracer_provider.js.map /***/ }), /***/ 98996: /***/ ((__unused_webpack_module, exports) => { "use strict"; /* * Copyright The OpenTelemetry Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports.VERSION = void 0; // this is autogenerated file, see scripts/version-update.js exports.VERSION = '1.0.4'; //# sourceMappingURL=version.js.map /***/ }), /***/ 14812: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { module.exports = { parallel : __nccwpck_require__(8210), serial : __nccwpck_require__(50445), serialOrdered : __nccwpck_require__(3578) }; /***/ }), /***/ 1700: /***/ ((module) => { // API module.exports = abort; /** * Aborts leftover active jobs * * @param {object} state - current state object */ function abort(state) { Object.keys(state.jobs).forEach(clean.bind(state)); // reset leftover jobs state.jobs = {}; } /** * Cleans up leftover job by invoking abort function for the provided job id * * @this state * @param {string|number} key - job id to abort */ function clean(key) { if (typeof this.jobs[key] == 'function') { this.jobs[key](); } } /***/ }), /***/ 72794: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { var defer = __nccwpck_require__(15295); // API module.exports = async; /** * Runs provided callback asynchronously * even if callback itself is not * * @param {function} callback - callback to invoke * @returns {function} - augmented callback */ function async(callback) { var isAsync = false; // check if async happened defer(function() { isAsync = true; }); return function async_callback(err, result) { if (isAsync) { callback(err, result); } else { defer(function nextTick_callback() { callback(err, result); }); } }; } /***/ }), /***/ 15295: /***/ ((module) => { module.exports = defer; /** * Runs provided function on next iteration of the event loop * * @param {function} fn - function to run */ function defer(fn) { var nextTick = typeof setImmediate == 'function' ? setImmediate : ( typeof process == 'object' && typeof process.nextTick == 'function' ? process.nextTick : null ); if (nextTick) { nextTick(fn); } else { setTimeout(fn, 0); } } /***/ }), /***/ 9023: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { var async = __nccwpck_require__(72794) , abort = __nccwpck_require__(1700) ; // API module.exports = iterate; /** * Iterates over each job object * * @param {array|object} list - array or object (named list) to iterate over * @param {function} iterator - iterator to run * @param {object} state - current job status * @param {function} callback - invoked when all elements processed */ function iterate(list, iterator, state, callback) { // store current index var key = state['keyedList'] ? state['keyedList'][state.index] : state.index; state.jobs[key] = runJob(iterator, key, list[key], function(error, output) { // don't repeat yourself // skip secondary callbacks if (!(key in state.jobs)) { return; } // clean up jobs delete state.jobs[key]; if (error) { // don't process rest of the results // stop still active jobs // and reset the list abort(state); } else { state.results[key] = output; } // return salvaged results callback(error, state.results); }); } /** * Runs iterator over provided job element * * @param {function} iterator - iterator to invoke * @param {string|number} key - key/index of the element in the list of jobs * @param {mixed} item - job description * @param {function} callback - invoked after iterator is done with the job * @returns {function|mixed} - job abort function or something else */ function runJob(iterator, key, item, callback) { var aborter; // allow shortcut if iterator expects only two arguments if (iterator.length == 2) { aborter = iterator(item, async(callback)); } // otherwise go with full three arguments else { aborter = iterator(item, key, async(callback)); } return aborter; } /***/ }), /***/ 42474: /***/ ((module) => { // API module.exports = state; /** * Creates initial state object * for iteration over list * * @param {array|object} list - list to iterate over * @param {function|null} sortMethod - function to use for keys sort, * or `null` to keep them as is * @returns {object} - initial state object */ function state(list, sortMethod) { var isNamedList = !Array.isArray(list) , initState = { index : 0, keyedList: isNamedList || sortMethod ? Object.keys(list) : null, jobs : {}, results : isNamedList ? {} : [], size : isNamedList ? Object.keys(list).length : list.length } ; if (sortMethod) { // sort array keys based on it's values // sort object's keys just on own merit initState.keyedList.sort(isNamedList ? sortMethod : function(a, b) { return sortMethod(list[a], list[b]); }); } return initState; } /***/ }), /***/ 37942: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { var abort = __nccwpck_require__(1700) , async = __nccwpck_require__(72794) ; // API module.exports = terminator; /** * Terminates jobs in the attached state context * * @this AsyncKitState# * @param {function} callback - final callback to invoke after termination */ function terminator(callback) { if (!Object.keys(this.jobs).length) { return; } // fast forward iteration index this.index = this.size; // abort jobs abort(this); // send back results we have so far async(callback)(null, this.results); } /***/ }), /***/ 8210: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { var iterate = __nccwpck_require__(9023) , initState = __nccwpck_require__(42474) , terminator = __nccwpck_require__(37942) ; // Public API module.exports = parallel; /** * Runs iterator over provided array elements in parallel * * @param {array|object} list - array or object (named list) to iterate over * @param {function} iterator - iterator to run * @param {function} callback - invoked when all elements processed * @returns {function} - jobs terminator */ function parallel(list, iterator, callback) { var state = initState(list); while (state.index < (state['keyedList'] || list).length) { iterate(list, iterator, state, function(error, result) { if (error) { callback(error, result); return; } // looks like it's the last one if (Object.keys(state.jobs).length === 0) { callback(null, state.results); return; } }); state.index++; } return terminator.bind(state, callback); } /***/ }), /***/ 50445: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { var serialOrdered = __nccwpck_require__(3578); // Public API module.exports = serial; /** * Runs iterator over provided array elements in series * * @param {array|object} list - array or object (named list) to iterate over * @param {function} iterator - iterator to run * @param {function} callback - invoked when all elements processed * @returns {function} - jobs terminator */ function serial(list, iterator, callback) { return serialOrdered(list, iterator, null, callback); } /***/ }), /***/ 3578: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { var iterate = __nccwpck_require__(9023) , initState = __nccwpck_require__(42474) , terminator = __nccwpck_require__(37942) ; // Public API module.exports = serialOrdered; // sorting helpers module.exports.ascending = ascending; module.exports.descending = descending; /** * Runs iterator over provided sorted array elements in series * * @param {array|object} list - array or object (named list) to iterate over * @param {function} iterator - iterator to run * @param {function} sortMethod - custom sort function * @param {function} callback - invoked when all elements processed * @returns {function} - jobs terminator */ function serialOrdered(list, iterator, sortMethod, callback) { var state = initState(list, sortMethod); iterate(list, iterator, state, function iteratorHandler(error, result) { if (error) { callback(error, result); return; } state.index++; // are we there yet? if (state.index < (state['keyedList'] || list).length) { iterate(list, iterator, state, iteratorHandler); return; } // done here callback(null, state.results); }); return terminator.bind(state, callback); } /* * -- Sort methods */ /** * sort helper to sort array elements in ascending order * * @param {mixed} a - an item to compare * @param {mixed} b - an item to compare * @returns {number} - comparison result */ function ascending(a, b) { return a < b ? -1 : a > b ? 1 : 0; } /** * sort helper to sort array elements in descending order * * @param {mixed} a - an item to compare * @param {mixed} b - an item to compare * @returns {number} - comparison result */ function descending(a, b) { return -1 * ascending(a, b); } /***/ }), /***/ 9417: /***/ ((module) => { "use strict"; module.exports = balanced; function balanced(a, b, str) { if (a instanceof RegExp) a = maybeMatch(a, str); if (b instanceof RegExp) b = maybeMatch(b, str); var r = range(a, b, str); return r && { start: r[0], end: r[1], pre: str.slice(0, r[0]), body: str.slice(r[0] + a.length, r[1]), post: str.slice(r[1] + b.length) }; } function maybeMatch(reg, str) { var m = str.match(reg); return m ? m[0] : null; } balanced.range = range; function range(a, b, str) { var begs, beg, left, right, result; var ai = str.indexOf(a); var bi = str.indexOf(b, ai + 1); var i = ai; if (ai >= 0 && bi > 0) { begs = []; left = str.length; while (i >= 0 && !result) { if (i == ai) { begs.push(i); ai = str.indexOf(a, i + 1); } else if (begs.length == 1) { result = [ begs.pop(), bi ]; } else { beg = begs.pop(); if (beg < left) { left = beg; right = bi; } bi = str.indexOf(b, i + 1); } i = ai < bi && ai >= 0 ? ai : bi; } if (begs.length) { result = [ left, right ]; } } return result; } /***/ }), /***/ 33717: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { var concatMap = __nccwpck_require__(86891); var balanced = __nccwpck_require__(9417); module.exports = expandTop; var escSlash = '\0SLASH'+Math.random()+'\0'; var escOpen = '\0OPEN'+Math.random()+'\0'; var escClose = '\0CLOSE'+Math.random()+'\0'; var escComma = '\0COMMA'+Math.random()+'\0'; var escPeriod = '\0PERIOD'+Math.random()+'\0'; function numeric(str) { return parseInt(str, 10) == str ? parseInt(str, 10) : str.charCodeAt(0); } function escapeBraces(str) { return str.split('\\\\').join(escSlash) .split('\\{').join(escOpen) .split('\\}').join(escClose) .split('\\,').join(escComma) .split('\\.').join(escPeriod); } function unescapeBraces(str) { return str.split(escSlash).join('\\') .split(escOpen).join('{') .split(escClose).join('}') .split(escComma).join(',') .split(escPeriod).join('.'); } // Basically just str.split(","), but handling cases // where we have nested braced sections, which should be // treated as individual members, like {a,{b,c},d} function parseCommaParts(str) { if (!str) return ['']; var parts = []; var m = balanced('{', '}', str); if (!m) return str.split(','); var pre = m.pre; var body = m.body; var post = m.post; var p = pre.split(','); p[p.length-1] += '{' + body + '}'; var postParts = parseCommaParts(post); if (post.length) { p[p.length-1] += postParts.shift(); p.push.apply(p, postParts); } parts.push.apply(parts, p); return parts; } function expandTop(str) { if (!str) return []; // I don't know why Bash 4.3 does this, but it does. // Anything starting with {} will have the first two bytes preserved // but *only* at the top level, so {},a}b will not expand to anything, // but a{},b}c will be expanded to [a}c,abc]. // One could argue that this is a bug in Bash, but since the goal of // this module is to match Bash's rules, we escape a leading {} if (str.substr(0, 2) === '{}') { str = '\\{\\}' + str.substr(2); } return expand(escapeBraces(str), true).map(unescapeBraces); } function identity(e) { return e; } function embrace(str) { return '{' + str + '}'; } function isPadded(el) { return /^-?0\d/.test(el); } function lte(i, y) { return i <= y; } function gte(i, y) { return i >= y; } function expand(str, isTop) { var expansions = []; var m = balanced('{', '}', str); if (!m || /\$$/.test(m.pre)) return [str]; var isNumericSequence = /^-?\d+\.\.-?\d+(?:\.\.-?\d+)?$/.test(m.body); var isAlphaSequence = /^[a-zA-Z]\.\.[a-zA-Z](?:\.\.-?\d+)?$/.test(m.body); var isSequence = isNumericSequence || isAlphaSequence; var isOptions = m.body.indexOf(',') >= 0; if (!isSequence && !isOptions) { // {a},b} if (m.post.match(/,.*\}/)) { str = m.pre + '{' + m.body + escClose + m.post; return expand(str); } return [str]; } var n; if (isSequence) { n = m.body.split(/\.\./); } else { n = parseCommaParts(m.body); if (n.length === 1) { // x{{a,b}}y ==> x{a}y x{b}y n = expand(n[0], false).map(embrace); if (n.length === 1) { var post = m.post.length ? expand(m.post, false) : ['']; return post.map(function(p) { return m.pre + n[0] + p; }); } } } // at this point, n is the parts, and we know it's not a comma set // with a single entry. // no need to expand pre, since it is guaranteed to be free of brace-sets var pre = m.pre; var post = m.post.length ? expand(m.post, false) : ['']; var N; if (isSequence) { var x = numeric(n[0]); var y = numeric(n[1]); var width = Math.max(n[0].length, n[1].length) var incr = n.length == 3 ? Math.abs(numeric(n[2])) : 1; var test = lte; var reverse = y < x; if (reverse) { incr *= -1; test = gte; } var pad = n.some(isPadded); N = []; for (var i = x; test(i, y); i += incr) { var c; if (isAlphaSequence) { c = String.fromCharCode(i); if (c === '\\') c = ''; } else { c = String(i); if (pad) { var need = width - c.length; if (need > 0) { var z = new Array(need + 1).join('0'); if (i < 0) c = '-' + z + c.slice(1); else c = z + c; } } } N.push(c); } } else { N = concatMap(n, function(el) { return expand(el, false) }); } for (var j = 0; j < N.length; j++) { for (var k = 0; k < post.length; k++) { var expansion = pre + N[j] + post[k]; if (!isTop || isSequence || expansion) expansions.push(expansion); } } return expansions; } /***/ }), /***/ 85443: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { var util = __nccwpck_require__(73837); var Stream = (__nccwpck_require__(12781).Stream); var DelayedStream = __nccwpck_require__(18611); module.exports = CombinedStream; function CombinedStream() { this.writable = false; this.readable = true; this.dataSize = 0; this.maxDataSize = 2 * 1024 * 1024; this.pauseStreams = true; this._released = false; this._streams = []; this._currentStream = null; this._insideLoop = false; this._pendingNext = false; } util.inherits(CombinedStream, Stream); CombinedStream.create = function(options) { var combinedStream = new this(); options = options || {}; for (var option in options) { combinedStream[option] = options[option]; } return combinedStream; }; CombinedStream.isStreamLike = function(stream) { return (typeof stream !== 'function') && (typeof stream !== 'string') && (typeof stream !== 'boolean') && (typeof stream !== 'number') && (!Buffer.isBuffer(stream)); }; CombinedStream.prototype.append = function(stream) { var isStreamLike = CombinedStream.isStreamLike(stream); if (isStreamLike) { if (!(stream instanceof DelayedStream)) { var newStream = DelayedStream.create(stream, { maxDataSize: Infinity, pauseStream: this.pauseStreams, }); stream.on('data', this._checkDataSize.bind(this)); stream = newStream; } this._handleErrors(stream); if (this.pauseStreams) { stream.pause(); } } this._streams.push(stream); return this; }; CombinedStream.prototype.pipe = function(dest, options) { Stream.prototype.pipe.call(this, dest, options); this.resume(); return dest; }; CombinedStream.prototype._getNext = function() { this._currentStream = null; if (this._insideLoop) { this._pendingNext = true; return; // defer call } this._insideLoop = true; try { do { this._pendingNext = false; this._realGetNext(); } while (this._pendingNext); } finally { this._insideLoop = false; } }; CombinedStream.prototype._realGetNext = function() { var stream = this._streams.shift(); if (typeof stream == 'undefined') { this.end(); return; } if (typeof stream !== 'function') { this._pipeNext(stream); return; } var getStream = stream; getStream(function(stream) { var isStreamLike = CombinedStream.isStreamLike(stream); if (isStreamLike) { stream.on('data', this._checkDataSize.bind(this)); this._handleErrors(stream); } this._pipeNext(stream); }.bind(this)); }; CombinedStream.prototype._pipeNext = function(stream) { this._currentStream = stream; var isStreamLike = CombinedStream.isStreamLike(stream); if (isStreamLike) { stream.on('end', this._getNext.bind(this)); stream.pipe(this, {end: false}); return; } var value = stream; this.write(value); this._getNext(); }; CombinedStream.prototype._handleErrors = function(stream) { var self = this; stream.on('error', function(err) { self._emitError(err); }); }; CombinedStream.prototype.write = function(data) { this.emit('data', data); }; CombinedStream.prototype.pause = function() { if (!this.pauseStreams) { return; } if(this.pauseStreams && this._currentStream && typeof(this._currentStream.pause) == 'function') this._currentStream.pause(); this.emit('pause'); }; CombinedStream.prototype.resume = function() { if (!this._released) { this._released = true; this.writable = true; this._getNext(); } if(this.pauseStreams && this._currentStream && typeof(this._currentStream.resume) == 'function') this._currentStream.resume(); this.emit('resume'); }; CombinedStream.prototype.end = function() { this._reset(); this.emit('end'); }; CombinedStream.prototype.destroy = function() { this._reset(); this.emit('close'); }; CombinedStream.prototype._reset = function() { this.writable = false; this._streams = []; this._currentStream = null; }; CombinedStream.prototype._checkDataSize = function() { this._updateDataSize(); if (this.dataSize <= this.maxDataSize) { return; } var message = 'DelayedStream#maxDataSize of ' + this.maxDataSize + ' bytes exceeded.'; this._emitError(new Error(message)); }; CombinedStream.prototype._updateDataSize = function() { this.dataSize = 0; var self = this; this._streams.forEach(function(stream) { if (!stream.dataSize) { return; } self.dataSize += stream.dataSize; }); if (this._currentStream && this._currentStream.dataSize) { this.dataSize += this._currentStream.dataSize; } }; CombinedStream.prototype._emitError = function(err) { this._reset(); this.emit('error', err); }; /***/ }), /***/ 86891: /***/ ((module) => { module.exports = function (xs, fn) { var res = []; for (var i = 0; i < xs.length; i++) { var x = fn(xs[i], i); if (isArray(x)) res.push.apply(res, x); else res.push(x); } return res; }; var isArray = Array.isArray || function (xs) { return Object.prototype.toString.call(xs) === '[object Array]'; }; /***/ }), /***/ 18611: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { var Stream = (__nccwpck_require__(12781).Stream); var util = __nccwpck_require__(73837); module.exports = DelayedStream; function DelayedStream() { this.source = null; this.dataSize = 0; this.maxDataSize = 1024 * 1024; this.pauseStream = true; this._maxDataSizeExceeded = false; this._released = false; this._bufferedEvents = []; } util.inherits(DelayedStream, Stream); DelayedStream.create = function(source, options) { var delayedStream = new this(); options = options || {}; for (var option in options) { delayedStream[option] = options[option]; } delayedStream.source = source; var realEmit = source.emit; source.emit = function() { delayedStream._handleEmit(arguments); return realEmit.apply(source, arguments); }; source.on('error', function() {}); if (delayedStream.pauseStream) { source.pause(); } return delayedStream; }; Object.defineProperty(DelayedStream.prototype, 'readable', { configurable: true, enumerable: true, get: function() { return this.source.readable; } }); DelayedStream.prototype.setEncoding = function() { return this.source.setEncoding.apply(this.source, arguments); }; DelayedStream.prototype.resume = function() { if (!this._released) { this.release(); } this.source.resume(); }; DelayedStream.prototype.pause = function() { this.source.pause(); }; DelayedStream.prototype.release = function() { this._released = true; this._bufferedEvents.forEach(function(args) { this.emit.apply(this, args); }.bind(this)); this._bufferedEvents = []; }; DelayedStream.prototype.pipe = function() { var r = Stream.prototype.pipe.apply(this, arguments); this.resume(); return r; }; DelayedStream.prototype._handleEmit = function(args) { if (this._released) { this.emit.apply(this, args); return; } if (args[0] === 'data') { this.dataSize += args[1].length; this._checkIfMaxDataSizeExceeded(); } this._bufferedEvents.push(args); }; DelayedStream.prototype._checkIfMaxDataSizeExceeded = function() { if (this._maxDataSizeExceeded) { return; } if (this.dataSize <= this.maxDataSize) { return; } this._maxDataSizeExceeded = true; var message = 'DelayedStream#maxDataSize of ' + this.maxDataSize + ' bytes exceeded.' this.emit('error', new Error(message)); }; /***/ }), /***/ 21917: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; var yaml = __nccwpck_require__(40916); module.exports = yaml; /***/ }), /***/ 40916: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; var loader = __nccwpck_require__(45190); var dumper = __nccwpck_require__(73034); function deprecated(name) { return function () { throw new Error('Function ' + name + ' is deprecated and cannot be used.'); }; } module.exports.Type = __nccwpck_require__(30967); module.exports.Schema = __nccwpck_require__(66514); module.exports.FAILSAFE_SCHEMA = __nccwpck_require__(66037); module.exports.JSON_SCHEMA = __nccwpck_require__(1571); module.exports.CORE_SCHEMA = __nccwpck_require__(92183); module.exports.DEFAULT_SAFE_SCHEMA = __nccwpck_require__(48949); module.exports.DEFAULT_FULL_SCHEMA = __nccwpck_require__(56874); module.exports.load = loader.load; module.exports.loadAll = loader.loadAll; module.exports.safeLoad = loader.safeLoad; module.exports.safeLoadAll = loader.safeLoadAll; module.exports.dump = dumper.dump; module.exports.safeDump = dumper.safeDump; module.exports.YAMLException = __nccwpck_require__(65199); // Deprecated schema names from JS-YAML 2.0.x module.exports.MINIMAL_SCHEMA = __nccwpck_require__(66037); module.exports.SAFE_SCHEMA = __nccwpck_require__(48949); module.exports.DEFAULT_SCHEMA = __nccwpck_require__(56874); // Deprecated functions from JS-YAML 1.x.x module.exports.scan = deprecated('scan'); module.exports.parse = deprecated('parse'); module.exports.compose = deprecated('compose'); module.exports.addConstructor = deprecated('addConstructor'); /***/ }), /***/ 59136: /***/ ((module) => { "use strict"; function isNothing(subject) { return (typeof subject === 'undefined') || (subject === null); } function isObject(subject) { return (typeof subject === 'object') && (subject !== null); } function toArray(sequence) { if (Array.isArray(sequence)) return sequence; else if (isNothing(sequence)) return []; return [ sequence ]; } function extend(target, source) { var index, length, key, sourceKeys; if (source) { sourceKeys = Object.keys(source); for (index = 0, length = sourceKeys.length; index < length; index += 1) { key = sourceKeys[index]; target[key] = source[key]; } } return target; } function repeat(string, count) { var result = '', cycle; for (cycle = 0; cycle < count; cycle += 1) { result += string; } return result; } function isNegativeZero(number) { return (number === 0) && (Number.NEGATIVE_INFINITY === 1 / number); } module.exports.isNothing = isNothing; module.exports.isObject = isObject; module.exports.toArray = toArray; module.exports.repeat = repeat; module.exports.isNegativeZero = isNegativeZero; module.exports.extend = extend; /***/ }), /***/ 73034: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; /*eslint-disable no-use-before-define*/ var common = __nccwpck_require__(59136); var YAMLException = __nccwpck_require__(65199); var DEFAULT_FULL_SCHEMA = __nccwpck_require__(56874); var DEFAULT_SAFE_SCHEMA = __nccwpck_require__(48949); var _toString = Object.prototype.toString; var _hasOwnProperty = Object.prototype.hasOwnProperty; var CHAR_TAB = 0x09; /* Tab */ var CHAR_LINE_FEED = 0x0A; /* LF */ var CHAR_CARRIAGE_RETURN = 0x0D; /* CR */ var CHAR_SPACE = 0x20; /* Space */ var CHAR_EXCLAMATION = 0x21; /* ! */ var CHAR_DOUBLE_QUOTE = 0x22; /* " */ var CHAR_SHARP = 0x23; /* # */ var CHAR_PERCENT = 0x25; /* % */ var CHAR_AMPERSAND = 0x26; /* & */ var CHAR_SINGLE_QUOTE = 0x27; /* ' */ var CHAR_ASTERISK = 0x2A; /* * */ var CHAR_COMMA = 0x2C; /* , */ var CHAR_MINUS = 0x2D; /* - */ var CHAR_COLON = 0x3A; /* : */ var CHAR_EQUALS = 0x3D; /* = */ var CHAR_GREATER_THAN = 0x3E; /* > */ var CHAR_QUESTION = 0x3F; /* ? */ var CHAR_COMMERCIAL_AT = 0x40; /* @ */ var CHAR_LEFT_SQUARE_BRACKET = 0x5B; /* [ */ var CHAR_RIGHT_SQUARE_BRACKET = 0x5D; /* ] */ var CHAR_GRAVE_ACCENT = 0x60; /* ` */ var CHAR_LEFT_CURLY_BRACKET = 0x7B; /* { */ var CHAR_VERTICAL_LINE = 0x7C; /* | */ var CHAR_RIGHT_CURLY_BRACKET = 0x7D; /* } */ var ESCAPE_SEQUENCES = {}; ESCAPE_SEQUENCES[0x00] = '\\0'; ESCAPE_SEQUENCES[0x07] = '\\a'; ESCAPE_SEQUENCES[0x08] = '\\b'; ESCAPE_SEQUENCES[0x09] = '\\t'; ESCAPE_SEQUENCES[0x0A] = '\\n'; ESCAPE_SEQUENCES[0x0B] = '\\v'; ESCAPE_SEQUENCES[0x0C] = '\\f'; ESCAPE_SEQUENCES[0x0D] = '\\r'; ESCAPE_SEQUENCES[0x1B] = '\\e'; ESCAPE_SEQUENCES[0x22] = '\\"'; ESCAPE_SEQUENCES[0x5C] = '\\\\'; ESCAPE_SEQUENCES[0x85] = '\\N'; ESCAPE_SEQUENCES[0xA0] = '\\_'; ESCAPE_SEQUENCES[0x2028] = '\\L'; ESCAPE_SEQUENCES[0x2029] = '\\P'; var DEPRECATED_BOOLEANS_SYNTAX = [ 'y', 'Y', 'yes', 'Yes', 'YES', 'on', 'On', 'ON', 'n', 'N', 'no', 'No', 'NO', 'off', 'Off', 'OFF' ]; function compileStyleMap(schema, map) { var result, keys, index, length, tag, style, type; if (map === null) return {}; result = {}; keys = Object.keys(map); for (index = 0, length = keys.length; index < length; index += 1) { tag = keys[index]; style = String(map[tag]); if (tag.slice(0, 2) === '!!') { tag = 'tag:yaml.org,2002:' + tag.slice(2); } type = schema.compiledTypeMap['fallback'][tag]; if (type && _hasOwnProperty.call(type.styleAliases, style)) { style = type.styleAliases[style]; } result[tag] = style; } return result; } function encodeHex(character) { var string, handle, length; string = character.toString(16).toUpperCase(); if (character <= 0xFF) { handle = 'x'; length = 2; } else if (character <= 0xFFFF) { handle = 'u'; length = 4; } else if (character <= 0xFFFFFFFF) { handle = 'U'; length = 8; } else { throw new YAMLException('code point within a string may not be greater than 0xFFFFFFFF'); } return '\\' + handle + common.repeat('0', length - string.length) + string; } function State(options) { this.schema = options['schema'] || DEFAULT_FULL_SCHEMA; this.indent = Math.max(1, (options['indent'] || 2)); this.noArrayIndent = options['noArrayIndent'] || false; this.skipInvalid = options['skipInvalid'] || false; this.flowLevel = (common.isNothing(options['flowLevel']) ? -1 : options['flowLevel']); this.styleMap = compileStyleMap(this.schema, options['styles'] || null); this.sortKeys = options['sortKeys'] || false; this.lineWidth = options['lineWidth'] || 80; this.noRefs = options['noRefs'] || false; this.noCompatMode = options['noCompatMode'] || false; this.condenseFlow = options['condenseFlow'] || false; this.implicitTypes = this.schema.compiledImplicit; this.explicitTypes = this.schema.compiledExplicit; this.tag = null; this.result = ''; this.duplicates = []; this.usedDuplicates = null; } // Indents every line in a string. Empty lines (\n only) are not indented. function indentString(string, spaces) { var ind = common.repeat(' ', spaces), position = 0, next = -1, result = '', line, length = string.length; while (position < length) { next = string.indexOf('\n', position); if (next === -1) { line = string.slice(position); position = length; } else { line = string.slice(position, next + 1); position = next + 1; } if (line.length && line !== '\n') result += ind; result += line; } return result; } function generateNextLine(state, level) { return '\n' + common.repeat(' ', state.indent * level); } function testImplicitResolving(state, str) { var index, length, type; for (index = 0, length = state.implicitTypes.length; index < length; index += 1) { type = state.implicitTypes[index]; if (type.resolve(str)) { return true; } } return false; } // [33] s-white ::= s-space | s-tab function isWhitespace(c) { return c === CHAR_SPACE || c === CHAR_TAB; } // Returns true if the character can be printed without escaping. // From YAML 1.2: "any allowed characters known to be non-printable // should also be escaped. [However,] This isn’t mandatory" // Derived from nb-char - \t - #x85 - #xA0 - #x2028 - #x2029. function isPrintable(c) { return (0x00020 <= c && c <= 0x00007E) || ((0x000A1 <= c && c <= 0x00D7FF) && c !== 0x2028 && c !== 0x2029) || ((0x0E000 <= c && c <= 0x00FFFD) && c !== 0xFEFF /* BOM */) || (0x10000 <= c && c <= 0x10FFFF); } // [34] ns-char ::= nb-char - s-white // [27] nb-char ::= c-printable - b-char - c-byte-order-mark // [26] b-char ::= b-line-feed | b-carriage-return // [24] b-line-feed ::= #xA /* LF */ // [25] b-carriage-return ::= #xD /* CR */ // [3] c-byte-order-mark ::= #xFEFF function isNsChar(c) { return isPrintable(c) && !isWhitespace(c) // byte-order-mark && c !== 0xFEFF // b-char && c !== CHAR_CARRIAGE_RETURN && c !== CHAR_LINE_FEED; } // Simplified test for values allowed after the first character in plain style. function isPlainSafe(c, prev) { // Uses a subset of nb-char - c-flow-indicator - ":" - "#" // where nb-char ::= c-printable - b-char - c-byte-order-mark. return isPrintable(c) && c !== 0xFEFF // - c-flow-indicator && c !== CHAR_COMMA && c !== CHAR_LEFT_SQUARE_BRACKET && c !== CHAR_RIGHT_SQUARE_BRACKET && c !== CHAR_LEFT_CURLY_BRACKET && c !== CHAR_RIGHT_CURLY_BRACKET // - ":" - "#" // /* An ns-char preceding */ "#" && c !== CHAR_COLON && ((c !== CHAR_SHARP) || (prev && isNsChar(prev))); } // Simplified test for values allowed as the first character in plain style. function isPlainSafeFirst(c) { // Uses a subset of ns-char - c-indicator // where ns-char = nb-char - s-white. return isPrintable(c) && c !== 0xFEFF && !isWhitespace(c) // - s-white // - (c-indicator ::= // “-” | “?” | “:” | “,” | “[” | “]” | “{” | “}” && c !== CHAR_MINUS && c !== CHAR_QUESTION && c !== CHAR_COLON && c !== CHAR_COMMA && c !== CHAR_LEFT_SQUARE_BRACKET && c !== CHAR_RIGHT_SQUARE_BRACKET && c !== CHAR_LEFT_CURLY_BRACKET && c !== CHAR_RIGHT_CURLY_BRACKET // | “#” | “&” | “*” | “!” | “|” | “=” | “>” | “'” | “"” && c !== CHAR_SHARP && c !== CHAR_AMPERSAND && c !== CHAR_ASTERISK && c !== CHAR_EXCLAMATION && c !== CHAR_VERTICAL_LINE && c !== CHAR_EQUALS && c !== CHAR_GREATER_THAN && c !== CHAR_SINGLE_QUOTE && c !== CHAR_DOUBLE_QUOTE // | “%” | “@” | “`”) && c !== CHAR_PERCENT && c !== CHAR_COMMERCIAL_AT && c !== CHAR_GRAVE_ACCENT; } // Determines whether block indentation indicator is required. function needIndentIndicator(string) { var leadingSpaceRe = /^\n* /; return leadingSpaceRe.test(string); } var STYLE_PLAIN = 1, STYLE_SINGLE = 2, STYLE_LITERAL = 3, STYLE_FOLDED = 4, STYLE_DOUBLE = 5; // Determines which scalar styles are possible and returns the preferred style. // lineWidth = -1 => no limit. // Pre-conditions: str.length > 0. // Post-conditions: // STYLE_PLAIN or STYLE_SINGLE => no \n are in the string. // STYLE_LITERAL => no lines are suitable for folding (or lineWidth is -1). // STYLE_FOLDED => a line > lineWidth and can be folded (and lineWidth != -1). function chooseScalarStyle(string, singleLineOnly, indentPerLevel, lineWidth, testAmbiguousType) { var i; var char, prev_char; var hasLineBreak = false; var hasFoldableLine = false; // only checked if shouldTrackWidth var shouldTrackWidth = lineWidth !== -1; var previousLineBreak = -1; // count the first line correctly var plain = isPlainSafeFirst(string.charCodeAt(0)) && !isWhitespace(string.charCodeAt(string.length - 1)); if (singleLineOnly) { // Case: no block styles. // Check for disallowed characters to rule out plain and single. for (i = 0; i < string.length; i++) { char = string.charCodeAt(i); if (!isPrintable(char)) { return STYLE_DOUBLE; } prev_char = i > 0 ? string.charCodeAt(i - 1) : null; plain = plain && isPlainSafe(char, prev_char); } } else { // Case: block styles permitted. for (i = 0; i < string.length; i++) { char = string.charCodeAt(i); if (char === CHAR_LINE_FEED) { hasLineBreak = true; // Check if any line can be folded. if (shouldTrackWidth) { hasFoldableLine = hasFoldableLine || // Foldable line = too long, and not more-indented. (i - previousLineBreak - 1 > lineWidth && string[previousLineBreak + 1] !== ' '); previousLineBreak = i; } } else if (!isPrintable(char)) { return STYLE_DOUBLE; } prev_char = i > 0 ? string.charCodeAt(i - 1) : null; plain = plain && isPlainSafe(char, prev_char); } // in case the end is missing a \n hasFoldableLine = hasFoldableLine || (shouldTrackWidth && (i - previousLineBreak - 1 > lineWidth && string[previousLineBreak + 1] !== ' ')); } // Although every style can represent \n without escaping, prefer block styles // for multiline, since they're more readable and they don't add empty lines. // Also prefer folding a super-long line. if (!hasLineBreak && !hasFoldableLine) { // Strings interpretable as another type have to be quoted; // e.g. the string 'true' vs. the boolean true. return plain && !testAmbiguousType(string) ? STYLE_PLAIN : STYLE_SINGLE; } // Edge case: block indentation indicator can only have one digit. if (indentPerLevel > 9 && needIndentIndicator(string)) { return STYLE_DOUBLE; } // At this point we know block styles are valid. // Prefer literal style unless we want to fold. return hasFoldableLine ? STYLE_FOLDED : STYLE_LITERAL; } // Note: line breaking/folding is implemented for only the folded style. // NB. We drop the last trailing newline (if any) of a returned block scalar // since the dumper adds its own newline. This always works: // • No ending newline => unaffected; already using strip "-" chomping. // • Ending newline => removed then restored. // Importantly, this keeps the "+" chomp indicator from gaining an extra line. function writeScalar(state, string, level, iskey) { state.dump = (function () { if (string.length === 0) { return "''"; } if (!state.noCompatMode && DEPRECATED_BOOLEANS_SYNTAX.indexOf(string) !== -1) { return "'" + string + "'"; } var indent = state.indent * Math.max(1, level); // no 0-indent scalars // As indentation gets deeper, let the width decrease monotonically // to the lower bound min(state.lineWidth, 40). // Note that this implies // state.lineWidth ≤ 40 + state.indent: width is fixed at the lower bound. // state.lineWidth > 40 + state.indent: width decreases until the lower bound. // This behaves better than a constant minimum width which disallows narrower options, // or an indent threshold which causes the width to suddenly increase. var lineWidth = state.lineWidth === -1 ? -1 : Math.max(Math.min(state.lineWidth, 40), state.lineWidth - indent); // Without knowing if keys are implicit/explicit, assume implicit for safety. var singleLineOnly = iskey // No block styles in flow mode. || (state.flowLevel > -1 && level >= state.flowLevel); function testAmbiguity(string) { return testImplicitResolving(state, string); } switch (chooseScalarStyle(string, singleLineOnly, state.indent, lineWidth, testAmbiguity)) { case STYLE_PLAIN: return string; case STYLE_SINGLE: return "'" + string.replace(/'/g, "''") + "'"; case STYLE_LITERAL: return '|' + blockHeader(string, state.indent) + dropEndingNewline(indentString(string, indent)); case STYLE_FOLDED: return '>' + blockHeader(string, state.indent) + dropEndingNewline(indentString(foldString(string, lineWidth), indent)); case STYLE_DOUBLE: return '"' + escapeString(string, lineWidth) + '"'; default: throw new YAMLException('impossible error: invalid scalar style'); } }()); } // Pre-conditions: string is valid for a block scalar, 1 <= indentPerLevel <= 9. function blockHeader(string, indentPerLevel) { var indentIndicator = needIndentIndicator(string) ? String(indentPerLevel) : ''; // note the special case: the string '\n' counts as a "trailing" empty line. var clip = string[string.length - 1] === '\n'; var keep = clip && (string[string.length - 2] === '\n' || string === '\n'); var chomp = keep ? '+' : (clip ? '' : '-'); return indentIndicator + chomp + '\n'; } // (See the note for writeScalar.) function dropEndingNewline(string) { return string[string.length - 1] === '\n' ? string.slice(0, -1) : string; } // Note: a long line without a suitable break point will exceed the width limit. // Pre-conditions: every char in str isPrintable, str.length > 0, width > 0. function foldString(string, width) { // In folded style, $k$ consecutive newlines output as $k+1$ newlines— // unless they're before or after a more-indented line, or at the very // beginning or end, in which case $k$ maps to $k$. // Therefore, parse each chunk as newline(s) followed by a content line. var lineRe = /(\n+)([^\n]*)/g; // first line (possibly an empty line) var result = (function () { var nextLF = string.indexOf('\n'); nextLF = nextLF !== -1 ? nextLF : string.length; lineRe.lastIndex = nextLF; return foldLine(string.slice(0, nextLF), width); }()); // If we haven't reached the first content line yet, don't add an extra \n. var prevMoreIndented = string[0] === '\n' || string[0] === ' '; var moreIndented; // rest of the lines var match; while ((match = lineRe.exec(string))) { var prefix = match[1], line = match[2]; moreIndented = (line[0] === ' '); result += prefix + (!prevMoreIndented && !moreIndented && line !== '' ? '\n' : '') + foldLine(line, width); prevMoreIndented = moreIndented; } return result; } // Greedy line breaking. // Picks the longest line under the limit each time, // otherwise settles for the shortest line over the limit. // NB. More-indented lines *cannot* be folded, as that would add an extra \n. function foldLine(line, width) { if (line === '' || line[0] === ' ') return line; // Since a more-indented line adds a \n, breaks can't be followed by a space. var breakRe = / [^ ]/g; // note: the match index will always be <= length-2. var match; // start is an inclusive index. end, curr, and next are exclusive. var start = 0, end, curr = 0, next = 0; var result = ''; // Invariants: 0 <= start <= length-1. // 0 <= curr <= next <= max(0, length-2). curr - start <= width. // Inside the loop: // A match implies length >= 2, so curr and next are <= length-2. while ((match = breakRe.exec(line))) { next = match.index; // maintain invariant: curr - start <= width if (next - start > width) { end = (curr > start) ? curr : next; // derive end <= length-2 result += '\n' + line.slice(start, end); // skip the space that was output as \n start = end + 1; // derive start <= length-1 } curr = next; } // By the invariants, start <= length-1, so there is something left over. // It is either the whole string or a part starting from non-whitespace. result += '\n'; // Insert a break if the remainder is too long and there is a break available. if (line.length - start > width && curr > start) { result += line.slice(start, curr) + '\n' + line.slice(curr + 1); } else { result += line.slice(start); } return result.slice(1); // drop extra \n joiner } // Escapes a double-quoted string. function escapeString(string) { var result = ''; var char, nextChar; var escapeSeq; for (var i = 0; i < string.length; i++) { char = string.charCodeAt(i); // Check for surrogate pairs (reference Unicode 3.0 section "3.7 Surrogates"). if (char >= 0xD800 && char <= 0xDBFF/* high surrogate */) { nextChar = string.charCodeAt(i + 1); if (nextChar >= 0xDC00 && nextChar <= 0xDFFF/* low surrogate */) { // Combine the surrogate pair and store it escaped. result += encodeHex((char - 0xD800) * 0x400 + nextChar - 0xDC00 + 0x10000); // Advance index one extra since we already used that char here. i++; continue; } } escapeSeq = ESCAPE_SEQUENCES[char]; result += !escapeSeq && isPrintable(char) ? string[i] : escapeSeq || encodeHex(char); } return result; } function writeFlowSequence(state, level, object) { var _result = '', _tag = state.tag, index, length; for (index = 0, length = object.length; index < length; index += 1) { // Write only valid elements. if (writeNode(state, level, object[index], false, false)) { if (index !== 0) _result += ',' + (!state.condenseFlow ? ' ' : ''); _result += state.dump; } } state.tag = _tag; state.dump = '[' + _result + ']'; } function writeBlockSequence(state, level, object, compact) { var _result = '', _tag = state.tag, index, length; for (index = 0, length = object.length; index < length; index += 1) { // Write only valid elements. if (writeNode(state, level + 1, object[index], true, true)) { if (!compact || index !== 0) { _result += generateNextLine(state, level); } if (state.dump && CHAR_LINE_FEED === state.dump.charCodeAt(0)) { _result += '-'; } else { _result += '- '; } _result += state.dump; } } state.tag = _tag; state.dump = _result || '[]'; // Empty sequence if no valid values. } function writeFlowMapping(state, level, object) { var _result = '', _tag = state.tag, objectKeyList = Object.keys(object), index, length, objectKey, objectValue, pairBuffer; for (index = 0, length = objectKeyList.length; index < length; index += 1) { pairBuffer = ''; if (index !== 0) pairBuffer += ', '; if (state.condenseFlow) pairBuffer += '"'; objectKey = objectKeyList[index]; objectValue = object[objectKey]; if (!writeNode(state, level, objectKey, false, false)) { continue; // Skip this pair because of invalid key; } if (state.dump.length > 1024) pairBuffer += '? '; pairBuffer += state.dump + (state.condenseFlow ? '"' : '') + ':' + (state.condenseFlow ? '' : ' '); if (!writeNode(state, level, objectValue, false, false)) { continue; // Skip this pair because of invalid value. } pairBuffer += state.dump; // Both key and value are valid. _result += pairBuffer; } state.tag = _tag; state.dump = '{' + _result + '}'; } function writeBlockMapping(state, level, object, compact) { var _result = '', _tag = state.tag, objectKeyList = Object.keys(object), index, length, objectKey, objectValue, explicitPair, pairBuffer; // Allow sorting keys so that the output file is deterministic if (state.sortKeys === true) { // Default sorting objectKeyList.sort(); } else if (typeof state.sortKeys === 'function') { // Custom sort function objectKeyList.sort(state.sortKeys); } else if (state.sortKeys) { // Something is wrong throw new YAMLException('sortKeys must be a boolean or a function'); } for (index = 0, length = objectKeyList.length; index < length; index += 1) { pairBuffer = ''; if (!compact || index !== 0) { pairBuffer += generateNextLine(state, level); } objectKey = objectKeyList[index]; objectValue = object[objectKey]; if (!writeNode(state, level + 1, objectKey, true, true, true)) { continue; // Skip this pair because of invalid key. } explicitPair = (state.tag !== null && state.tag !== '?') || (state.dump && state.dump.length > 1024); if (explicitPair) { if (state.dump && CHAR_LINE_FEED === state.dump.charCodeAt(0)) { pairBuffer += '?'; } else { pairBuffer += '? '; } } pairBuffer += state.dump; if (explicitPair) { pairBuffer += generateNextLine(state, level); } if (!writeNode(state, level + 1, objectValue, true, explicitPair)) { continue; // Skip this pair because of invalid value. } if (state.dump && CHAR_LINE_FEED === state.dump.charCodeAt(0)) { pairBuffer += ':'; } else { pairBuffer += ': '; } pairBuffer += state.dump; // Both key and value are valid. _result += pairBuffer; } state.tag = _tag; state.dump = _result || '{}'; // Empty mapping if no valid pairs. } function detectType(state, object, explicit) { var _result, typeList, index, length, type, style; typeList = explicit ? state.explicitTypes : state.implicitTypes; for (index = 0, length = typeList.length; index < length; index += 1) { type = typeList[index]; if ((type.instanceOf || type.predicate) && (!type.instanceOf || ((typeof object === 'object') && (object instanceof type.instanceOf))) && (!type.predicate || type.predicate(object))) { state.tag = explicit ? type.tag : '?'; if (type.represent) { style = state.styleMap[type.tag] || type.defaultStyle; if (_toString.call(type.represent) === '[object Function]') { _result = type.represent(object, style); } else if (_hasOwnProperty.call(type.represent, style)) { _result = type.represent[style](object, style); } else { throw new YAMLException('!<' + type.tag + '> tag resolver accepts not "' + style + '" style'); } state.dump = _result; } return true; } } return false; } // Serializes `object` and writes it to global `result`. // Returns true on success, or false on invalid object. // function writeNode(state, level, object, block, compact, iskey) { state.tag = null; state.dump = object; if (!detectType(state, object, false)) { detectType(state, object, true); } var type = _toString.call(state.dump); if (block) { block = (state.flowLevel < 0 || state.flowLevel > level); } var objectOrArray = type === '[object Object]' || type === '[object Array]', duplicateIndex, duplicate; if (objectOrArray) { duplicateIndex = state.duplicates.indexOf(object); duplicate = duplicateIndex !== -1; } if ((state.tag !== null && state.tag !== '?') || duplicate || (state.indent !== 2 && level > 0)) { compact = false; } if (duplicate && state.usedDuplicates[duplicateIndex]) { state.dump = '*ref_' + duplicateIndex; } else { if (objectOrArray && duplicate && !state.usedDuplicates[duplicateIndex]) { state.usedDuplicates[duplicateIndex] = true; } if (type === '[object Object]') { if (block && (Object.keys(state.dump).length !== 0)) { writeBlockMapping(state, level, state.dump, compact); if (duplicate) { state.dump = '&ref_' + duplicateIndex + state.dump; } } else { writeFlowMapping(state, level, state.dump); if (duplicate) { state.dump = '&ref_' + duplicateIndex + ' ' + state.dump; } } } else if (type === '[object Array]') { var arrayLevel = (state.noArrayIndent && (level > 0)) ? level - 1 : level; if (block && (state.dump.length !== 0)) { writeBlockSequence(state, arrayLevel, state.dump, compact); if (duplicate) { state.dump = '&ref_' + duplicateIndex + state.dump; } } else { writeFlowSequence(state, arrayLevel, state.dump); if (duplicate) { state.dump = '&ref_' + duplicateIndex + ' ' + state.dump; } } } else if (type === '[object String]') { if (state.tag !== '?') { writeScalar(state, state.dump, level, iskey); } } else { if (state.skipInvalid) return false; throw new YAMLException('unacceptable kind of an object to dump ' + type); } if (state.tag !== null && state.tag !== '?') { state.dump = '!<' + state.tag + '> ' + state.dump; } } return true; } function getDuplicateReferences(object, state) { var objects = [], duplicatesIndexes = [], index, length; inspectNode(object, objects, duplicatesIndexes); for (index = 0, length = duplicatesIndexes.length; index < length; index += 1) { state.duplicates.push(objects[duplicatesIndexes[index]]); } state.usedDuplicates = new Array(length); } function inspectNode(object, objects, duplicatesIndexes) { var objectKeyList, index, length; if (object !== null && typeof object === 'object') { index = objects.indexOf(object); if (index !== -1) { if (duplicatesIndexes.indexOf(index) === -1) { duplicatesIndexes.push(index); } } else { objects.push(object); if (Array.isArray(object)) { for (index = 0, length = object.length; index < length; index += 1) { inspectNode(object[index], objects, duplicatesIndexes); } } else { objectKeyList = Object.keys(object); for (index = 0, length = objectKeyList.length; index < length; index += 1) { inspectNode(object[objectKeyList[index]], objects, duplicatesIndexes); } } } } } function dump(input, options) { options = options || {}; var state = new State(options); if (!state.noRefs) getDuplicateReferences(input, state); if (writeNode(state, 0, input, true, true)) return state.dump + '\n'; return ''; } function safeDump(input, options) { return dump(input, common.extend({ schema: DEFAULT_SAFE_SCHEMA }, options)); } module.exports.dump = dump; module.exports.safeDump = safeDump; /***/ }), /***/ 65199: /***/ ((module) => { "use strict"; // YAML error class. http://stackoverflow.com/questions/8458984 // function YAMLException(reason, mark) { // Super constructor Error.call(this); this.name = 'YAMLException'; this.reason = reason; this.mark = mark; this.message = (this.reason || '(unknown reason)') + (this.mark ? ' ' + this.mark.toString() : ''); // Include stack trace in error object if (Error.captureStackTrace) { // Chrome and NodeJS Error.captureStackTrace(this, this.constructor); } else { // FF, IE 10+ and Safari 6+. Fallback for others this.stack = (new Error()).stack || ''; } } // Inherit from Error YAMLException.prototype = Object.create(Error.prototype); YAMLException.prototype.constructor = YAMLException; YAMLException.prototype.toString = function toString(compact) { var result = this.name + ': '; result += this.reason || '(unknown reason)'; if (!compact && this.mark) { result += ' ' + this.mark.toString(); } return result; }; module.exports = YAMLException; /***/ }), /***/ 45190: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; /*eslint-disable max-len,no-use-before-define*/ var common = __nccwpck_require__(59136); var YAMLException = __nccwpck_require__(65199); var Mark = __nccwpck_require__(55426); var DEFAULT_SAFE_SCHEMA = __nccwpck_require__(48949); var DEFAULT_FULL_SCHEMA = __nccwpck_require__(56874); var _hasOwnProperty = Object.prototype.hasOwnProperty; var CONTEXT_FLOW_IN = 1; var CONTEXT_FLOW_OUT = 2; var CONTEXT_BLOCK_IN = 3; var CONTEXT_BLOCK_OUT = 4; var CHOMPING_CLIP = 1; var CHOMPING_STRIP = 2; var CHOMPING_KEEP = 3; var PATTERN_NON_PRINTABLE = /[\x00-\x08\x0B\x0C\x0E-\x1F\x7F-\x84\x86-\x9F\uFFFE\uFFFF]|[\uD800-\uDBFF](?![\uDC00-\uDFFF])|(?:[^\uD800-\uDBFF]|^)[\uDC00-\uDFFF]/; var PATTERN_NON_ASCII_LINE_BREAKS = /[\x85\u2028\u2029]/; var PATTERN_FLOW_INDICATORS = /[,\[\]\{\}]/; var PATTERN_TAG_HANDLE = /^(?:!|!!|![a-z\-]+!)$/i; var PATTERN_TAG_URI = /^(?:!|[^,\[\]\{\}])(?:%[0-9a-f]{2}|[0-9a-z\-#;\/\?:@&=\+\$,_\.!~\*'\(\)\[\]])*$/i; function _class(obj) { return Object.prototype.toString.call(obj); } function is_EOL(c) { return (c === 0x0A/* LF */) || (c === 0x0D/* CR */); } function is_WHITE_SPACE(c) { return (c === 0x09/* Tab */) || (c === 0x20/* Space */); } function is_WS_OR_EOL(c) { return (c === 0x09/* Tab */) || (c === 0x20/* Space */) || (c === 0x0A/* LF */) || (c === 0x0D/* CR */); } function is_FLOW_INDICATOR(c) { return c === 0x2C/* , */ || c === 0x5B/* [ */ || c === 0x5D/* ] */ || c === 0x7B/* { */ || c === 0x7D/* } */; } function fromHexCode(c) { var lc; if ((0x30/* 0 */ <= c) && (c <= 0x39/* 9 */)) { return c - 0x30; } /*eslint-disable no-bitwise*/ lc = c | 0x20; if ((0x61/* a */ <= lc) && (lc <= 0x66/* f */)) { return lc - 0x61 + 10; } return -1; } function escapedHexLen(c) { if (c === 0x78/* x */) { return 2; } if (c === 0x75/* u */) { return 4; } if (c === 0x55/* U */) { return 8; } return 0; } function fromDecimalCode(c) { if ((0x30/* 0 */ <= c) && (c <= 0x39/* 9 */)) { return c - 0x30; } return -1; } function simpleEscapeSequence(c) { /* eslint-disable indent */ return (c === 0x30/* 0 */) ? '\x00' : (c === 0x61/* a */) ? '\x07' : (c === 0x62/* b */) ? '\x08' : (c === 0x74/* t */) ? '\x09' : (c === 0x09/* Tab */) ? '\x09' : (c === 0x6E/* n */) ? '\x0A' : (c === 0x76/* v */) ? '\x0B' : (c === 0x66/* f */) ? '\x0C' : (c === 0x72/* r */) ? '\x0D' : (c === 0x65/* e */) ? '\x1B' : (c === 0x20/* Space */) ? ' ' : (c === 0x22/* " */) ? '\x22' : (c === 0x2F/* / */) ? '/' : (c === 0x5C/* \ */) ? '\x5C' : (c === 0x4E/* N */) ? '\x85' : (c === 0x5F/* _ */) ? '\xA0' : (c === 0x4C/* L */) ? '\u2028' : (c === 0x50/* P */) ? '\u2029' : ''; } function charFromCodepoint(c) { if (c <= 0xFFFF) { return String.fromCharCode(c); } // Encode UTF-16 surrogate pair // https://en.wikipedia.org/wiki/UTF-16#Code_points_U.2B010000_to_U.2B10FFFF return String.fromCharCode( ((c - 0x010000) >> 10) + 0xD800, ((c - 0x010000) & 0x03FF) + 0xDC00 ); } var simpleEscapeCheck = new Array(256); // integer, for fast access var simpleEscapeMap = new Array(256); for (var i = 0; i < 256; i++) { simpleEscapeCheck[i] = simpleEscapeSequence(i) ? 1 : 0; simpleEscapeMap[i] = simpleEscapeSequence(i); } function State(input, options) { this.input = input; this.filename = options['filename'] || null; this.schema = options['schema'] || DEFAULT_FULL_SCHEMA; this.onWarning = options['onWarning'] || null; this.legacy = options['legacy'] || false; this.json = options['json'] || false; this.listener = options['listener'] || null; this.implicitTypes = this.schema.compiledImplicit; this.typeMap = this.schema.compiledTypeMap; this.length = input.length; this.position = 0; this.line = 0; this.lineStart = 0; this.lineIndent = 0; this.documents = []; /* this.version; this.checkLineBreaks; this.tagMap; this.anchorMap; this.tag; this.anchor; this.kind; this.result;*/ } function generateError(state, message) { return new YAMLException( message, new Mark(state.filename, state.input, state.position, state.line, (state.position - state.lineStart))); } function throwError(state, message) { throw generateError(state, message); } function throwWarning(state, message) { if (state.onWarning) { state.onWarning.call(null, generateError(state, message)); } } var directiveHandlers = { YAML: function handleYamlDirective(state, name, args) { var match, major, minor; if (state.version !== null) { throwError(state, 'duplication of %YAML directive'); } if (args.length !== 1) { throwError(state, 'YAML directive accepts exactly one argument'); } match = /^([0-9]+)\.([0-9]+)$/.exec(args[0]); if (match === null) { throwError(state, 'ill-formed argument of the YAML directive'); } major = parseInt(match[1], 10); minor = parseInt(match[2], 10); if (major !== 1) { throwError(state, 'unacceptable YAML version of the document'); } state.version = args[0]; state.checkLineBreaks = (minor < 2); if (minor !== 1 && minor !== 2) { throwWarning(state, 'unsupported YAML version of the document'); } }, TAG: function handleTagDirective(state, name, args) { var handle, prefix; if (args.length !== 2) { throwError(state, 'TAG directive accepts exactly two arguments'); } handle = args[0]; prefix = args[1]; if (!PATTERN_TAG_HANDLE.test(handle)) { throwError(state, 'ill-formed tag handle (first argument) of the TAG directive'); } if (_hasOwnProperty.call(state.tagMap, handle)) { throwError(state, 'there is a previously declared suffix for "' + handle + '" tag handle'); } if (!PATTERN_TAG_URI.test(prefix)) { throwError(state, 'ill-formed tag prefix (second argument) of the TAG directive'); } state.tagMap[handle] = prefix; } }; function captureSegment(state, start, end, checkJson) { var _position, _length, _character, _result; if (start < end) { _result = state.input.slice(start, end); if (checkJson) { for (_position = 0, _length = _result.length; _position < _length; _position += 1) { _character = _result.charCodeAt(_position); if (!(_character === 0x09 || (0x20 <= _character && _character <= 0x10FFFF))) { throwError(state, 'expected valid JSON character'); } } } else if (PATTERN_NON_PRINTABLE.test(_result)) { throwError(state, 'the stream contains non-printable characters'); } state.result += _result; } } function mergeMappings(state, destination, source, overridableKeys) { var sourceKeys, key, index, quantity; if (!common.isObject(source)) { throwError(state, 'cannot merge mappings; the provided source object is unacceptable'); } sourceKeys = Object.keys(source); for (index = 0, quantity = sourceKeys.length; index < quantity; index += 1) { key = sourceKeys[index]; if (!_hasOwnProperty.call(destination, key)) { destination[key] = source[key]; overridableKeys[key] = true; } } } function storeMappingPair(state, _result, overridableKeys, keyTag, keyNode, valueNode, startLine, startPos) { var index, quantity; // The output is a plain object here, so keys can only be strings. // We need to convert keyNode to a string, but doing so can hang the process // (deeply nested arrays that explode exponentially using aliases). if (Array.isArray(keyNode)) { keyNode = Array.prototype.slice.call(keyNode); for (index = 0, quantity = keyNode.length; index < quantity; index += 1) { if (Array.isArray(keyNode[index])) { throwError(state, 'nested arrays are not supported inside keys'); } if (typeof keyNode === 'object' && _class(keyNode[index]) === '[object Object]') { keyNode[index] = '[object Object]'; } } } // Avoid code execution in load() via toString property // (still use its own toString for arrays, timestamps, // and whatever user schema extensions happen to have @@toStringTag) if (typeof keyNode === 'object' && _class(keyNode) === '[object Object]') { keyNode = '[object Object]'; } keyNode = String(keyNode); if (_result === null) { _result = {}; } if (keyTag === 'tag:yaml.org,2002:merge') { if (Array.isArray(valueNode)) { for (index = 0, quantity = valueNode.length; index < quantity; index += 1) { mergeMappings(state, _result, valueNode[index], overridableKeys); } } else { mergeMappings(state, _result, valueNode, overridableKeys); } } else { if (!state.json && !_hasOwnProperty.call(overridableKeys, keyNode) && _hasOwnProperty.call(_result, keyNode)) { state.line = startLine || state.line; state.position = startPos || state.position; throwError(state, 'duplicated mapping key'); } _result[keyNode] = valueNode; delete overridableKeys[keyNode]; } return _result; } function readLineBreak(state) { var ch; ch = state.input.charCodeAt(state.position); if (ch === 0x0A/* LF */) { state.position++; } else if (ch === 0x0D/* CR */) { state.position++; if (state.input.charCodeAt(state.position) === 0x0A/* LF */) { state.position++; } } else { throwError(state, 'a line break is expected'); } state.line += 1; state.lineStart = state.position; } function skipSeparationSpace(state, allowComments, checkIndent) { var lineBreaks = 0, ch = state.input.charCodeAt(state.position); while (ch !== 0) { while (is_WHITE_SPACE(ch)) { ch = state.input.charCodeAt(++state.position); } if (allowComments && ch === 0x23/* # */) { do { ch = state.input.charCodeAt(++state.position); } while (ch !== 0x0A/* LF */ && ch !== 0x0D/* CR */ && ch !== 0); } if (is_EOL(ch)) { readLineBreak(state); ch = state.input.charCodeAt(state.position); lineBreaks++; state.lineIndent = 0; while (ch === 0x20/* Space */) { state.lineIndent++; ch = state.input.charCodeAt(++state.position); } } else { break; } } if (checkIndent !== -1 && lineBreaks !== 0 && state.lineIndent < checkIndent) { throwWarning(state, 'deficient indentation'); } return lineBreaks; } function testDocumentSeparator(state) { var _position = state.position, ch; ch = state.input.charCodeAt(_position); // Condition state.position === state.lineStart is tested // in parent on each call, for efficiency. No needs to test here again. if ((ch === 0x2D/* - */ || ch === 0x2E/* . */) && ch === state.input.charCodeAt(_position + 1) && ch === state.input.charCodeAt(_position + 2)) { _position += 3; ch = state.input.charCodeAt(_position); if (ch === 0 || is_WS_OR_EOL(ch)) { return true; } } return false; } function writeFoldedLines(state, count) { if (count === 1) { state.result += ' '; } else if (count > 1) { state.result += common.repeat('\n', count - 1); } } function readPlainScalar(state, nodeIndent, withinFlowCollection) { var preceding, following, captureStart, captureEnd, hasPendingContent, _line, _lineStart, _lineIndent, _kind = state.kind, _result = state.result, ch; ch = state.input.charCodeAt(state.position); if (is_WS_OR_EOL(ch) || is_FLOW_INDICATOR(ch) || ch === 0x23/* # */ || ch === 0x26/* & */ || ch === 0x2A/* * */ || ch === 0x21/* ! */ || ch === 0x7C/* | */ || ch === 0x3E/* > */ || ch === 0x27/* ' */ || ch === 0x22/* " */ || ch === 0x25/* % */ || ch === 0x40/* @ */ || ch === 0x60/* ` */) { return false; } if (ch === 0x3F/* ? */ || ch === 0x2D/* - */) { following = state.input.charCodeAt(state.position + 1); if (is_WS_OR_EOL(following) || withinFlowCollection && is_FLOW_INDICATOR(following)) { return false; } } state.kind = 'scalar'; state.result = ''; captureStart = captureEnd = state.position; hasPendingContent = false; while (ch !== 0) { if (ch === 0x3A/* : */) { following = state.input.charCodeAt(state.position + 1); if (is_WS_OR_EOL(following) || withinFlowCollection && is_FLOW_INDICATOR(following)) { break; } } else if (ch === 0x23/* # */) { preceding = state.input.charCodeAt(state.position - 1); if (is_WS_OR_EOL(preceding)) { break; } } else if ((state.position === state.lineStart && testDocumentSeparator(state)) || withinFlowCollection && is_FLOW_INDICATOR(ch)) { break; } else if (is_EOL(ch)) { _line = state.line; _lineStart = state.lineStart; _lineIndent = state.lineIndent; skipSeparationSpace(state, false, -1); if (state.lineIndent >= nodeIndent) { hasPendingContent = true; ch = state.input.charCodeAt(state.position); continue; } else { state.position = captureEnd; state.line = _line; state.lineStart = _lineStart; state.lineIndent = _lineIndent; break; } } if (hasPendingContent) { captureSegment(state, captureStart, captureEnd, false); writeFoldedLines(state, state.line - _line); captureStart = captureEnd = state.position; hasPendingContent = false; } if (!is_WHITE_SPACE(ch)) { captureEnd = state.position + 1; } ch = state.input.charCodeAt(++state.position); } captureSegment(state, captureStart, captureEnd, false); if (state.result) { return true; } state.kind = _kind; state.result = _result; return false; } function readSingleQuotedScalar(state, nodeIndent) { var ch, captureStart, captureEnd; ch = state.input.charCodeAt(state.position); if (ch !== 0x27/* ' */) { return false; } state.kind = 'scalar'; state.result = ''; state.position++; captureStart = captureEnd = state.position; while ((ch = state.input.charCodeAt(state.position)) !== 0) { if (ch === 0x27/* ' */) { captureSegment(state, captureStart, state.position, true); ch = state.input.charCodeAt(++state.position); if (ch === 0x27/* ' */) { captureStart = state.position; state.position++; captureEnd = state.position; } else { return true; } } else if (is_EOL(ch)) { captureSegment(state, captureStart, captureEnd, true); writeFoldedLines(state, skipSeparationSpace(state, false, nodeIndent)); captureStart = captureEnd = state.position; } else if (state.position === state.lineStart && testDocumentSeparator(state)) { throwError(state, 'unexpected end of the document within a single quoted scalar'); } else { state.position++; captureEnd = state.position; } } throwError(state, 'unexpected end of the stream within a single quoted scalar'); } function readDoubleQuotedScalar(state, nodeIndent) { var captureStart, captureEnd, hexLength, hexResult, tmp, ch; ch = state.input.charCodeAt(state.position); if (ch !== 0x22/* " */) { return false; } state.kind = 'scalar'; state.result = ''; state.position++; captureStart = captureEnd = state.position; while ((ch = state.input.charCodeAt(state.position)) !== 0) { if (ch === 0x22/* " */) { captureSegment(state, captureStart, state.position, true); state.position++; return true; } else if (ch === 0x5C/* \ */) { captureSegment(state, captureStart, state.position, true); ch = state.input.charCodeAt(++state.position); if (is_EOL(ch)) { skipSeparationSpace(state, false, nodeIndent); // TODO: rework to inline fn with no type cast? } else if (ch < 256 && simpleEscapeCheck[ch]) { state.result += simpleEscapeMap[ch]; state.position++; } else if ((tmp = escapedHexLen(ch)) > 0) { hexLength = tmp; hexResult = 0; for (; hexLength > 0; hexLength--) { ch = state.input.charCodeAt(++state.position); if ((tmp = fromHexCode(ch)) >= 0) { hexResult = (hexResult << 4) + tmp; } else { throwError(state, 'expected hexadecimal character'); } } state.result += charFromCodepoint(hexResult); state.position++; } else { throwError(state, 'unknown escape sequence'); } captureStart = captureEnd = state.position; } else if (is_EOL(ch)) { captureSegment(state, captureStart, captureEnd, true); writeFoldedLines(state, skipSeparationSpace(state, false, nodeIndent)); captureStart = captureEnd = state.position; } else if (state.position === state.lineStart && testDocumentSeparator(state)) { throwError(state, 'unexpected end of the document within a double quoted scalar'); } else { state.position++; captureEnd = state.position; } } throwError(state, 'unexpected end of the stream within a double quoted scalar'); } function readFlowCollection(state, nodeIndent) { var readNext = true, _line, _tag = state.tag, _result, _anchor = state.anchor, following, terminator, isPair, isExplicitPair, isMapping, overridableKeys = {}, keyNode, keyTag, valueNode, ch; ch = state.input.charCodeAt(state.position); if (ch === 0x5B/* [ */) { terminator = 0x5D;/* ] */ isMapping = false; _result = []; } else if (ch === 0x7B/* { */) { terminator = 0x7D;/* } */ isMapping = true; _result = {}; } else { return false; } if (state.anchor !== null) { state.anchorMap[state.anchor] = _result; } ch = state.input.charCodeAt(++state.position); while (ch !== 0) { skipSeparationSpace(state, true, nodeIndent); ch = state.input.charCodeAt(state.position); if (ch === terminator) { state.position++; state.tag = _tag; state.anchor = _anchor; state.kind = isMapping ? 'mapping' : 'sequence'; state.result = _result; return true; } else if (!readNext) { throwError(state, 'missed comma between flow collection entries'); } keyTag = keyNode = valueNode = null; isPair = isExplicitPair = false; if (ch === 0x3F/* ? */) { following = state.input.charCodeAt(state.position + 1); if (is_WS_OR_EOL(following)) { isPair = isExplicitPair = true; state.position++; skipSeparationSpace(state, true, nodeIndent); } } _line = state.line; composeNode(state, nodeIndent, CONTEXT_FLOW_IN, false, true); keyTag = state.tag; keyNode = state.result; skipSeparationSpace(state, true, nodeIndent); ch = state.input.charCodeAt(state.position); if ((isExplicitPair || state.line === _line) && ch === 0x3A/* : */) { isPair = true; ch = state.input.charCodeAt(++state.position); skipSeparationSpace(state, true, nodeIndent); composeNode(state, nodeIndent, CONTEXT_FLOW_IN, false, true); valueNode = state.result; } if (isMapping) { storeMappingPair(state, _result, overridableKeys, keyTag, keyNode, valueNode); } else if (isPair) { _result.push(storeMappingPair(state, null, overridableKeys, keyTag, keyNode, valueNode)); } else { _result.push(keyNode); } skipSeparationSpace(state, true, nodeIndent); ch = state.input.charCodeAt(state.position); if (ch === 0x2C/* , */) { readNext = true; ch = state.input.charCodeAt(++state.position); } else { readNext = false; } } throwError(state, 'unexpected end of the stream within a flow collection'); } function readBlockScalar(state, nodeIndent) { var captureStart, folding, chomping = CHOMPING_CLIP, didReadContent = false, detectedIndent = false, textIndent = nodeIndent, emptyLines = 0, atMoreIndented = false, tmp, ch; ch = state.input.charCodeAt(state.position); if (ch === 0x7C/* | */) { folding = false; } else if (ch === 0x3E/* > */) { folding = true; } else { return false; } state.kind = 'scalar'; state.result = ''; while (ch !== 0) { ch = state.input.charCodeAt(++state.position); if (ch === 0x2B/* + */ || ch === 0x2D/* - */) { if (CHOMPING_CLIP === chomping) { chomping = (ch === 0x2B/* + */) ? CHOMPING_KEEP : CHOMPING_STRIP; } else { throwError(state, 'repeat of a chomping mode identifier'); } } else if ((tmp = fromDecimalCode(ch)) >= 0) { if (tmp === 0) { throwError(state, 'bad explicit indentation width of a block scalar; it cannot be less than one'); } else if (!detectedIndent) { textIndent = nodeIndent + tmp - 1; detectedIndent = true; } else { throwError(state, 'repeat of an indentation width identifier'); } } else { break; } } if (is_WHITE_SPACE(ch)) { do { ch = state.input.charCodeAt(++state.position); } while (is_WHITE_SPACE(ch)); if (ch === 0x23/* # */) { do { ch = state.input.charCodeAt(++state.position); } while (!is_EOL(ch) && (ch !== 0)); } } while (ch !== 0) { readLineBreak(state); state.lineIndent = 0; ch = state.input.charCodeAt(state.position); while ((!detectedIndent || state.lineIndent < textIndent) && (ch === 0x20/* Space */)) { state.lineIndent++; ch = state.input.charCodeAt(++state.position); } if (!detectedIndent && state.lineIndent > textIndent) { textIndent = state.lineIndent; } if (is_EOL(ch)) { emptyLines++; continue; } // End of the scalar. if (state.lineIndent < textIndent) { // Perform the chomping. if (chomping === CHOMPING_KEEP) { state.result += common.repeat('\n', didReadContent ? 1 + emptyLines : emptyLines); } else if (chomping === CHOMPING_CLIP) { if (didReadContent) { // i.e. only if the scalar is not empty. state.result += '\n'; } } // Break this `while` cycle and go to the funciton's epilogue. break; } // Folded style: use fancy rules to handle line breaks. if (folding) { // Lines starting with white space characters (more-indented lines) are not folded. if (is_WHITE_SPACE(ch)) { atMoreIndented = true; // except for the first content line (cf. Example 8.1) state.result += common.repeat('\n', didReadContent ? 1 + emptyLines : emptyLines); // End of more-indented block. } else if (atMoreIndented) { atMoreIndented = false; state.result += common.repeat('\n', emptyLines + 1); // Just one line break - perceive as the same line. } else if (emptyLines === 0) { if (didReadContent) { // i.e. only if we have already read some scalar content. state.result += ' '; } // Several line breaks - perceive as different lines. } else { state.result += common.repeat('\n', emptyLines); } // Literal style: just add exact number of line breaks between content lines. } else { // Keep all line breaks except the header line break. state.result += common.repeat('\n', didReadContent ? 1 + emptyLines : emptyLines); } didReadContent = true; detectedIndent = true; emptyLines = 0; captureStart = state.position; while (!is_EOL(ch) && (ch !== 0)) { ch = state.input.charCodeAt(++state.position); } captureSegment(state, captureStart, state.position, false); } return true; } function readBlockSequence(state, nodeIndent) { var _line, _tag = state.tag, _anchor = state.anchor, _result = [], following, detected = false, ch; if (state.anchor !== null) { state.anchorMap[state.anchor] = _result; } ch = state.input.charCodeAt(state.position); while (ch !== 0) { if (ch !== 0x2D/* - */) { break; } following = state.input.charCodeAt(state.position + 1); if (!is_WS_OR_EOL(following)) { break; } detected = true; state.position++; if (skipSeparationSpace(state, true, -1)) { if (state.lineIndent <= nodeIndent) { _result.push(null); ch = state.input.charCodeAt(state.position); continue; } } _line = state.line; composeNode(state, nodeIndent, CONTEXT_BLOCK_IN, false, true); _result.push(state.result); skipSeparationSpace(state, true, -1); ch = state.input.charCodeAt(state.position); if ((state.line === _line || state.lineIndent > nodeIndent) && (ch !== 0)) { throwError(state, 'bad indentation of a sequence entry'); } else if (state.lineIndent < nodeIndent) { break; } } if (detected) { state.tag = _tag; state.anchor = _anchor; state.kind = 'sequence'; state.result = _result; return true; } return false; } function readBlockMapping(state, nodeIndent, flowIndent) { var following, allowCompact, _line, _pos, _tag = state.tag, _anchor = state.anchor, _result = {}, overridableKeys = {}, keyTag = null, keyNode = null, valueNode = null, atExplicitKey = false, detected = false, ch; if (state.anchor !== null) { state.anchorMap[state.anchor] = _result; } ch = state.input.charCodeAt(state.position); while (ch !== 0) { following = state.input.charCodeAt(state.position + 1); _line = state.line; // Save the current line. _pos = state.position; // // Explicit notation case. There are two separate blocks: // first for the key (denoted by "?") and second for the value (denoted by ":") // if ((ch === 0x3F/* ? */ || ch === 0x3A/* : */) && is_WS_OR_EOL(following)) { if (ch === 0x3F/* ? */) { if (atExplicitKey) { storeMappingPair(state, _result, overridableKeys, keyTag, keyNode, null); keyTag = keyNode = valueNode = null; } detected = true; atExplicitKey = true; allowCompact = true; } else if (atExplicitKey) { // i.e. 0x3A/* : */ === character after the explicit key. atExplicitKey = false; allowCompact = true; } else { throwError(state, 'incomplete explicit mapping pair; a key node is missed; or followed by a non-tabulated empty line'); } state.position += 1; ch = following; // // Implicit notation case. Flow-style node as the key first, then ":", and the value. // } else if (composeNode(state, flowIndent, CONTEXT_FLOW_OUT, false, true)) { if (state.line === _line) { ch = state.input.charCodeAt(state.position); while (is_WHITE_SPACE(ch)) { ch = state.input.charCodeAt(++state.position); } if (ch === 0x3A/* : */) { ch = state.input.charCodeAt(++state.position); if (!is_WS_OR_EOL(ch)) { throwError(state, 'a whitespace character is expected after the key-value separator within a block mapping'); } if (atExplicitKey) { storeMappingPair(state, _result, overridableKeys, keyTag, keyNode, null); keyTag = keyNode = valueNode = null; } detected = true; atExplicitKey = false; allowCompact = false; keyTag = state.tag; keyNode = state.result; } else if (detected) { throwError(state, 'can not read an implicit mapping pair; a colon is missed'); } else { state.tag = _tag; state.anchor = _anchor; return true; // Keep the result of `composeNode`. } } else if (detected) { throwError(state, 'can not read a block mapping entry; a multiline key may not be an implicit key'); } else { state.tag = _tag; state.anchor = _anchor; return true; // Keep the result of `composeNode`. } } else { break; // Reading is done. Go to the epilogue. } // // Common reading code for both explicit and implicit notations. // if (state.line === _line || state.lineIndent > nodeIndent) { if (composeNode(state, nodeIndent, CONTEXT_BLOCK_OUT, true, allowCompact)) { if (atExplicitKey) { keyNode = state.result; } else { valueNode = state.result; } } if (!atExplicitKey) { storeMappingPair(state, _result, overridableKeys, keyTag, keyNode, valueNode, _line, _pos); keyTag = keyNode = valueNode = null; } skipSeparationSpace(state, true, -1); ch = state.input.charCodeAt(state.position); } if (state.lineIndent > nodeIndent && (ch !== 0)) { throwError(state, 'bad indentation of a mapping entry'); } else if (state.lineIndent < nodeIndent) { break; } } // // Epilogue. // // Special case: last mapping's node contains only the key in explicit notation. if (atExplicitKey) { storeMappingPair(state, _result, overridableKeys, keyTag, keyNode, null); } // Expose the resulting mapping. if (detected) { state.tag = _tag; state.anchor = _anchor; state.kind = 'mapping'; state.result = _result; } return detected; } function readTagProperty(state) { var _position, isVerbatim = false, isNamed = false, tagHandle, tagName, ch; ch = state.input.charCodeAt(state.position); if (ch !== 0x21/* ! */) return false; if (state.tag !== null) { throwError(state, 'duplication of a tag property'); } ch = state.input.charCodeAt(++state.position); if (ch === 0x3C/* < */) { isVerbatim = true; ch = state.input.charCodeAt(++state.position); } else if (ch === 0x21/* ! */) { isNamed = true; tagHandle = '!!'; ch = state.input.charCodeAt(++state.position); } else { tagHandle = '!'; } _position = state.position; if (isVerbatim) { do { ch = state.input.charCodeAt(++state.position); } while (ch !== 0 && ch !== 0x3E/* > */); if (state.position < state.length) { tagName = state.input.slice(_position, state.position); ch = state.input.charCodeAt(++state.position); } else { throwError(state, 'unexpected end of the stream within a verbatim tag'); } } else { while (ch !== 0 && !is_WS_OR_EOL(ch)) { if (ch === 0x21/* ! */) { if (!isNamed) { tagHandle = state.input.slice(_position - 1, state.position + 1); if (!PATTERN_TAG_HANDLE.test(tagHandle)) { throwError(state, 'named tag handle cannot contain such characters'); } isNamed = true; _position = state.position + 1; } else { throwError(state, 'tag suffix cannot contain exclamation marks'); } } ch = state.input.charCodeAt(++state.position); } tagName = state.input.slice(_position, state.position); if (PATTERN_FLOW_INDICATORS.test(tagName)) { throwError(state, 'tag suffix cannot contain flow indicator characters'); } } if (tagName && !PATTERN_TAG_URI.test(tagName)) { throwError(state, 'tag name cannot contain such characters: ' + tagName); } if (isVerbatim) { state.tag = tagName; } else if (_hasOwnProperty.call(state.tagMap, tagHandle)) { state.tag = state.tagMap[tagHandle] + tagName; } else if (tagHandle === '!') { state.tag = '!' + tagName; } else if (tagHandle === '!!') { state.tag = 'tag:yaml.org,2002:' + tagName; } else { throwError(state, 'undeclared tag handle "' + tagHandle + '"'); } return true; } function readAnchorProperty(state) { var _position, ch; ch = state.input.charCodeAt(state.position); if (ch !== 0x26/* & */) return false; if (state.anchor !== null) { throwError(state, 'duplication of an anchor property'); } ch = state.input.charCodeAt(++state.position); _position = state.position; while (ch !== 0 && !is_WS_OR_EOL(ch) && !is_FLOW_INDICATOR(ch)) { ch = state.input.charCodeAt(++state.position); } if (state.position === _position) { throwError(state, 'name of an anchor node must contain at least one character'); } state.anchor = state.input.slice(_position, state.position); return true; } function readAlias(state) { var _position, alias, ch; ch = state.input.charCodeAt(state.position); if (ch !== 0x2A/* * */) return false; ch = state.input.charCodeAt(++state.position); _position = state.position; while (ch !== 0 && !is_WS_OR_EOL(ch) && !is_FLOW_INDICATOR(ch)) { ch = state.input.charCodeAt(++state.position); } if (state.position === _position) { throwError(state, 'name of an alias node must contain at least one character'); } alias = state.input.slice(_position, state.position); if (!state.anchorMap.hasOwnProperty(alias)) { throwError(state, 'unidentified alias "' + alias + '"'); } state.result = state.anchorMap[alias]; skipSeparationSpace(state, true, -1); return true; } function composeNode(state, parentIndent, nodeContext, allowToSeek, allowCompact) { var allowBlockStyles, allowBlockScalars, allowBlockCollections, indentStatus = 1, // 1: this>parent, 0: this=parent, -1: this parentIndent) { indentStatus = 1; } else if (state.lineIndent === parentIndent) { indentStatus = 0; } else if (state.lineIndent < parentIndent) { indentStatus = -1; } } } if (indentStatus === 1) { while (readTagProperty(state) || readAnchorProperty(state)) { if (skipSeparationSpace(state, true, -1)) { atNewLine = true; allowBlockCollections = allowBlockStyles; if (state.lineIndent > parentIndent) { indentStatus = 1; } else if (state.lineIndent === parentIndent) { indentStatus = 0; } else if (state.lineIndent < parentIndent) { indentStatus = -1; } } else { allowBlockCollections = false; } } } if (allowBlockCollections) { allowBlockCollections = atNewLine || allowCompact; } if (indentStatus === 1 || CONTEXT_BLOCK_OUT === nodeContext) { if (CONTEXT_FLOW_IN === nodeContext || CONTEXT_FLOW_OUT === nodeContext) { flowIndent = parentIndent; } else { flowIndent = parentIndent + 1; } blockIndent = state.position - state.lineStart; if (indentStatus === 1) { if (allowBlockCollections && (readBlockSequence(state, blockIndent) || readBlockMapping(state, blockIndent, flowIndent)) || readFlowCollection(state, flowIndent)) { hasContent = true; } else { if ((allowBlockScalars && readBlockScalar(state, flowIndent)) || readSingleQuotedScalar(state, flowIndent) || readDoubleQuotedScalar(state, flowIndent)) { hasContent = true; } else if (readAlias(state)) { hasContent = true; if (state.tag !== null || state.anchor !== null) { throwError(state, 'alias node should not have any properties'); } } else if (readPlainScalar(state, flowIndent, CONTEXT_FLOW_IN === nodeContext)) { hasContent = true; if (state.tag === null) { state.tag = '?'; } } if (state.anchor !== null) { state.anchorMap[state.anchor] = state.result; } } } else if (indentStatus === 0) { // Special case: block sequences are allowed to have same indentation level as the parent. // http://www.yaml.org/spec/1.2/spec.html#id2799784 hasContent = allowBlockCollections && readBlockSequence(state, blockIndent); } } if (state.tag !== null && state.tag !== '!') { if (state.tag === '?') { // Implicit resolving is not allowed for non-scalar types, and '?' // non-specific tag is only automatically assigned to plain scalars. // // We only need to check kind conformity in case user explicitly assigns '?' // tag, for example like this: "! [0]" // if (state.result !== null && state.kind !== 'scalar') { throwError(state, 'unacceptable node kind for ! tag; it should be "scalar", not "' + state.kind + '"'); } for (typeIndex = 0, typeQuantity = state.implicitTypes.length; typeIndex < typeQuantity; typeIndex += 1) { type = state.implicitTypes[typeIndex]; if (type.resolve(state.result)) { // `state.result` updated in resolver if matched state.result = type.construct(state.result); state.tag = type.tag; if (state.anchor !== null) { state.anchorMap[state.anchor] = state.result; } break; } } } else if (_hasOwnProperty.call(state.typeMap[state.kind || 'fallback'], state.tag)) { type = state.typeMap[state.kind || 'fallback'][state.tag]; if (state.result !== null && type.kind !== state.kind) { throwError(state, 'unacceptable node kind for !<' + state.tag + '> tag; it should be "' + type.kind + '", not "' + state.kind + '"'); } if (!type.resolve(state.result)) { // `state.result` updated in resolver if matched throwError(state, 'cannot resolve a node with !<' + state.tag + '> explicit tag'); } else { state.result = type.construct(state.result); if (state.anchor !== null) { state.anchorMap[state.anchor] = state.result; } } } else { throwError(state, 'unknown tag !<' + state.tag + '>'); } } if (state.listener !== null) { state.listener('close', state); } return state.tag !== null || state.anchor !== null || hasContent; } function readDocument(state) { var documentStart = state.position, _position, directiveName, directiveArgs, hasDirectives = false, ch; state.version = null; state.checkLineBreaks = state.legacy; state.tagMap = {}; state.anchorMap = {}; while ((ch = state.input.charCodeAt(state.position)) !== 0) { skipSeparationSpace(state, true, -1); ch = state.input.charCodeAt(state.position); if (state.lineIndent > 0 || ch !== 0x25/* % */) { break; } hasDirectives = true; ch = state.input.charCodeAt(++state.position); _position = state.position; while (ch !== 0 && !is_WS_OR_EOL(ch)) { ch = state.input.charCodeAt(++state.position); } directiveName = state.input.slice(_position, state.position); directiveArgs = []; if (directiveName.length < 1) { throwError(state, 'directive name must not be less than one character in length'); } while (ch !== 0) { while (is_WHITE_SPACE(ch)) { ch = state.input.charCodeAt(++state.position); } if (ch === 0x23/* # */) { do { ch = state.input.charCodeAt(++state.position); } while (ch !== 0 && !is_EOL(ch)); break; } if (is_EOL(ch)) break; _position = state.position; while (ch !== 0 && !is_WS_OR_EOL(ch)) { ch = state.input.charCodeAt(++state.position); } directiveArgs.push(state.input.slice(_position, state.position)); } if (ch !== 0) readLineBreak(state); if (_hasOwnProperty.call(directiveHandlers, directiveName)) { directiveHandlers[directiveName](state, directiveName, directiveArgs); } else { throwWarning(state, 'unknown document directive "' + directiveName + '"'); } } skipSeparationSpace(state, true, -1); if (state.lineIndent === 0 && state.input.charCodeAt(state.position) === 0x2D/* - */ && state.input.charCodeAt(state.position + 1) === 0x2D/* - */ && state.input.charCodeAt(state.position + 2) === 0x2D/* - */) { state.position += 3; skipSeparationSpace(state, true, -1); } else if (hasDirectives) { throwError(state, 'directives end mark is expected'); } composeNode(state, state.lineIndent - 1, CONTEXT_BLOCK_OUT, false, true); skipSeparationSpace(state, true, -1); if (state.checkLineBreaks && PATTERN_NON_ASCII_LINE_BREAKS.test(state.input.slice(documentStart, state.position))) { throwWarning(state, 'non-ASCII line breaks are interpreted as content'); } state.documents.push(state.result); if (state.position === state.lineStart && testDocumentSeparator(state)) { if (state.input.charCodeAt(state.position) === 0x2E/* . */) { state.position += 3; skipSeparationSpace(state, true, -1); } return; } if (state.position < (state.length - 1)) { throwError(state, 'end of the stream or a document separator is expected'); } else { return; } } function loadDocuments(input, options) { input = String(input); options = options || {}; if (input.length !== 0) { // Add tailing `\n` if not exists if (input.charCodeAt(input.length - 1) !== 0x0A/* LF */ && input.charCodeAt(input.length - 1) !== 0x0D/* CR */) { input += '\n'; } // Strip BOM if (input.charCodeAt(0) === 0xFEFF) { input = input.slice(1); } } var state = new State(input, options); var nullpos = input.indexOf('\0'); if (nullpos !== -1) { state.position = nullpos; throwError(state, 'null byte is not allowed in input'); } // Use 0 as string terminator. That significantly simplifies bounds check. state.input += '\0'; while (state.input.charCodeAt(state.position) === 0x20/* Space */) { state.lineIndent += 1; state.position += 1; } while (state.position < (state.length - 1)) { readDocument(state); } return state.documents; } function loadAll(input, iterator, options) { if (iterator !== null && typeof iterator === 'object' && typeof options === 'undefined') { options = iterator; iterator = null; } var documents = loadDocuments(input, options); if (typeof iterator !== 'function') { return documents; } for (var index = 0, length = documents.length; index < length; index += 1) { iterator(documents[index]); } } function load(input, options) { var documents = loadDocuments(input, options); if (documents.length === 0) { /*eslint-disable no-undefined*/ return undefined; } else if (documents.length === 1) { return documents[0]; } throw new YAMLException('expected a single document in the stream, but found more'); } function safeLoadAll(input, iterator, options) { if (typeof iterator === 'object' && iterator !== null && typeof options === 'undefined') { options = iterator; iterator = null; } return loadAll(input, iterator, common.extend({ schema: DEFAULT_SAFE_SCHEMA }, options)); } function safeLoad(input, options) { return load(input, common.extend({ schema: DEFAULT_SAFE_SCHEMA }, options)); } module.exports.loadAll = loadAll; module.exports.load = load; module.exports.safeLoadAll = safeLoadAll; module.exports.safeLoad = safeLoad; /***/ }), /***/ 55426: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; var common = __nccwpck_require__(59136); function Mark(name, buffer, position, line, column) { this.name = name; this.buffer = buffer; this.position = position; this.line = line; this.column = column; } Mark.prototype.getSnippet = function getSnippet(indent, maxLength) { var head, start, tail, end, snippet; if (!this.buffer) return null; indent = indent || 4; maxLength = maxLength || 75; head = ''; start = this.position; while (start > 0 && '\x00\r\n\x85\u2028\u2029'.indexOf(this.buffer.charAt(start - 1)) === -1) { start -= 1; if (this.position - start > (maxLength / 2 - 1)) { head = ' ... '; start += 5; break; } } tail = ''; end = this.position; while (end < this.buffer.length && '\x00\r\n\x85\u2028\u2029'.indexOf(this.buffer.charAt(end)) === -1) { end += 1; if (end - this.position > (maxLength / 2 - 1)) { tail = ' ... '; end -= 5; break; } } snippet = this.buffer.slice(start, end); return common.repeat(' ', indent) + head + snippet + tail + '\n' + common.repeat(' ', indent + this.position - start + head.length) + '^'; }; Mark.prototype.toString = function toString(compact) { var snippet, where = ''; if (this.name) { where += 'in "' + this.name + '" '; } where += 'at line ' + (this.line + 1) + ', column ' + (this.column + 1); if (!compact) { snippet = this.getSnippet(); if (snippet) { where += ':\n' + snippet; } } return where; }; module.exports = Mark; /***/ }), /***/ 66514: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; /*eslint-disable max-len*/ var common = __nccwpck_require__(59136); var YAMLException = __nccwpck_require__(65199); var Type = __nccwpck_require__(30967); function compileList(schema, name, result) { var exclude = []; schema.include.forEach(function (includedSchema) { result = compileList(includedSchema, name, result); }); schema[name].forEach(function (currentType) { result.forEach(function (previousType, previousIndex) { if (previousType.tag === currentType.tag && previousType.kind === currentType.kind) { exclude.push(previousIndex); } }); result.push(currentType); }); return result.filter(function (type, index) { return exclude.indexOf(index) === -1; }); } function compileMap(/* lists... */) { var result = { scalar: {}, sequence: {}, mapping: {}, fallback: {} }, index, length; function collectType(type) { result[type.kind][type.tag] = result['fallback'][type.tag] = type; } for (index = 0, length = arguments.length; index < length; index += 1) { arguments[index].forEach(collectType); } return result; } function Schema(definition) { this.include = definition.include || []; this.implicit = definition.implicit || []; this.explicit = definition.explicit || []; this.implicit.forEach(function (type) { if (type.loadKind && type.loadKind !== 'scalar') { throw new YAMLException('There is a non-scalar type in the implicit list of a schema. Implicit resolving of such types is not supported.'); } }); this.compiledImplicit = compileList(this, 'implicit', []); this.compiledExplicit = compileList(this, 'explicit', []); this.compiledTypeMap = compileMap(this.compiledImplicit, this.compiledExplicit); } Schema.DEFAULT = null; Schema.create = function createSchema() { var schemas, types; switch (arguments.length) { case 1: schemas = Schema.DEFAULT; types = arguments[0]; break; case 2: schemas = arguments[0]; types = arguments[1]; break; default: throw new YAMLException('Wrong number of arguments for Schema.create function'); } schemas = common.toArray(schemas); types = common.toArray(types); if (!schemas.every(function (schema) { return schema instanceof Schema; })) { throw new YAMLException('Specified list of super schemas (or a single Schema object) contains a non-Schema object.'); } if (!types.every(function (type) { return type instanceof Type; })) { throw new YAMLException('Specified list of YAML types (or a single Type object) contains a non-Type object.'); } return new Schema({ include: schemas, explicit: types }); }; module.exports = Schema; /***/ }), /***/ 92183: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; // Standard YAML's Core schema. // http://www.yaml.org/spec/1.2/spec.html#id2804923 // // NOTE: JS-YAML does not support schema-specific tag resolution restrictions. // So, Core schema has no distinctions from JSON schema is JS-YAML. var Schema = __nccwpck_require__(66514); module.exports = new Schema({ include: [ __nccwpck_require__(1571) ] }); /***/ }), /***/ 56874: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; // JS-YAML's default schema for `load` function. // It is not described in the YAML specification. // // This schema is based on JS-YAML's default safe schema and includes // JavaScript-specific types: !!js/undefined, !!js/regexp and !!js/function. // // Also this schema is used as default base schema at `Schema.create` function. var Schema = __nccwpck_require__(66514); module.exports = Schema.DEFAULT = new Schema({ include: [ __nccwpck_require__(48949) ], explicit: [ __nccwpck_require__(25914), __nccwpck_require__(69242), __nccwpck_require__(27278) ] }); /***/ }), /***/ 48949: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; // JS-YAML's default schema for `safeLoad` function. // It is not described in the YAML specification. // // This schema is based on standard YAML's Core schema and includes most of // extra types described at YAML tag repository. (http://yaml.org/type/) var Schema = __nccwpck_require__(66514); module.exports = new Schema({ include: [ __nccwpck_require__(92183) ], implicit: [ __nccwpck_require__(83714), __nccwpck_require__(81393) ], explicit: [ __nccwpck_require__(32551), __nccwpck_require__(96668), __nccwpck_require__(76039), __nccwpck_require__(69237) ] }); /***/ }), /***/ 66037: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; // Standard YAML's Failsafe schema. // http://www.yaml.org/spec/1.2/spec.html#id2802346 var Schema = __nccwpck_require__(66514); module.exports = new Schema({ explicit: [ __nccwpck_require__(52672), __nccwpck_require__(5490), __nccwpck_require__(31173) ] }); /***/ }), /***/ 1571: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; // Standard YAML's JSON schema. // http://www.yaml.org/spec/1.2/spec.html#id2803231 // // NOTE: JS-YAML does not support schema-specific tag resolution restrictions. // So, this schema is not such strict as defined in the YAML specification. // It allows numbers in binary notaion, use `Null` and `NULL` as `null`, etc. var Schema = __nccwpck_require__(66514); module.exports = new Schema({ include: [ __nccwpck_require__(66037) ], implicit: [ __nccwpck_require__(22671), __nccwpck_require__(94675), __nccwpck_require__(89963), __nccwpck_require__(15564) ] }); /***/ }), /***/ 30967: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; var YAMLException = __nccwpck_require__(65199); var TYPE_CONSTRUCTOR_OPTIONS = [ 'kind', 'resolve', 'construct', 'instanceOf', 'predicate', 'represent', 'defaultStyle', 'styleAliases' ]; var YAML_NODE_KINDS = [ 'scalar', 'sequence', 'mapping' ]; function compileStyleAliases(map) { var result = {}; if (map !== null) { Object.keys(map).forEach(function (style) { map[style].forEach(function (alias) { result[String(alias)] = style; }); }); } return result; } function Type(tag, options) { options = options || {}; Object.keys(options).forEach(function (name) { if (TYPE_CONSTRUCTOR_OPTIONS.indexOf(name) === -1) { throw new YAMLException('Unknown option "' + name + '" is met in definition of "' + tag + '" YAML type.'); } }); // TODO: Add tag format check. this.tag = tag; this.kind = options['kind'] || null; this.resolve = options['resolve'] || function () { return true; }; this.construct = options['construct'] || function (data) { return data; }; this.instanceOf = options['instanceOf'] || null; this.predicate = options['predicate'] || null; this.represent = options['represent'] || null; this.defaultStyle = options['defaultStyle'] || null; this.styleAliases = compileStyleAliases(options['styleAliases'] || null); if (YAML_NODE_KINDS.indexOf(this.kind) === -1) { throw new YAMLException('Unknown kind "' + this.kind + '" is specified for "' + tag + '" YAML type.'); } } module.exports = Type; /***/ }), /***/ 32551: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; /*eslint-disable no-bitwise*/ var NodeBuffer; try { // A trick for browserified version, to not include `Buffer` shim var _require = require; NodeBuffer = _require('buffer').Buffer; } catch (__) {} var Type = __nccwpck_require__(30967); // [ 64, 65, 66 ] -> [ padding, CR, LF ] var BASE64_MAP = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/=\n\r'; function resolveYamlBinary(data) { if (data === null) return false; var code, idx, bitlen = 0, max = data.length, map = BASE64_MAP; // Convert one by one. for (idx = 0; idx < max; idx++) { code = map.indexOf(data.charAt(idx)); // Skip CR/LF if (code > 64) continue; // Fail on illegal characters if (code < 0) return false; bitlen += 6; } // If there are any bits left, source was corrupted return (bitlen % 8) === 0; } function constructYamlBinary(data) { var idx, tailbits, input = data.replace(/[\r\n=]/g, ''), // remove CR/LF & padding to simplify scan max = input.length, map = BASE64_MAP, bits = 0, result = []; // Collect by 6*4 bits (3 bytes) for (idx = 0; idx < max; idx++) { if ((idx % 4 === 0) && idx) { result.push((bits >> 16) & 0xFF); result.push((bits >> 8) & 0xFF); result.push(bits & 0xFF); } bits = (bits << 6) | map.indexOf(input.charAt(idx)); } // Dump tail tailbits = (max % 4) * 6; if (tailbits === 0) { result.push((bits >> 16) & 0xFF); result.push((bits >> 8) & 0xFF); result.push(bits & 0xFF); } else if (tailbits === 18) { result.push((bits >> 10) & 0xFF); result.push((bits >> 2) & 0xFF); } else if (tailbits === 12) { result.push((bits >> 4) & 0xFF); } // Wrap into Buffer for NodeJS and leave Array for browser if (NodeBuffer) { // Support node 6.+ Buffer API when available return NodeBuffer.from ? NodeBuffer.from(result) : new NodeBuffer(result); } return result; } function representYamlBinary(object /*, style*/) { var result = '', bits = 0, idx, tail, max = object.length, map = BASE64_MAP; // Convert every three bytes to 4 ASCII characters. for (idx = 0; idx < max; idx++) { if ((idx % 3 === 0) && idx) { result += map[(bits >> 18) & 0x3F]; result += map[(bits >> 12) & 0x3F]; result += map[(bits >> 6) & 0x3F]; result += map[bits & 0x3F]; } bits = (bits << 8) + object[idx]; } // Dump tail tail = max % 3; if (tail === 0) { result += map[(bits >> 18) & 0x3F]; result += map[(bits >> 12) & 0x3F]; result += map[(bits >> 6) & 0x3F]; result += map[bits & 0x3F]; } else if (tail === 2) { result += map[(bits >> 10) & 0x3F]; result += map[(bits >> 4) & 0x3F]; result += map[(bits << 2) & 0x3F]; result += map[64]; } else if (tail === 1) { result += map[(bits >> 2) & 0x3F]; result += map[(bits << 4) & 0x3F]; result += map[64]; result += map[64]; } return result; } function isBinary(object) { return NodeBuffer && NodeBuffer.isBuffer(object); } module.exports = new Type('tag:yaml.org,2002:binary', { kind: 'scalar', resolve: resolveYamlBinary, construct: constructYamlBinary, predicate: isBinary, represent: representYamlBinary }); /***/ }), /***/ 94675: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; var Type = __nccwpck_require__(30967); function resolveYamlBoolean(data) { if (data === null) return false; var max = data.length; return (max === 4 && (data === 'true' || data === 'True' || data === 'TRUE')) || (max === 5 && (data === 'false' || data === 'False' || data === 'FALSE')); } function constructYamlBoolean(data) { return data === 'true' || data === 'True' || data === 'TRUE'; } function isBoolean(object) { return Object.prototype.toString.call(object) === '[object Boolean]'; } module.exports = new Type('tag:yaml.org,2002:bool', { kind: 'scalar', resolve: resolveYamlBoolean, construct: constructYamlBoolean, predicate: isBoolean, represent: { lowercase: function (object) { return object ? 'true' : 'false'; }, uppercase: function (object) { return object ? 'TRUE' : 'FALSE'; }, camelcase: function (object) { return object ? 'True' : 'False'; } }, defaultStyle: 'lowercase' }); /***/ }), /***/ 15564: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; var common = __nccwpck_require__(59136); var Type = __nccwpck_require__(30967); var YAML_FLOAT_PATTERN = new RegExp( // 2.5e4, 2.5 and integers '^(?:[-+]?(?:0|[1-9][0-9_]*)(?:\\.[0-9_]*)?(?:[eE][-+]?[0-9]+)?' + // .2e4, .2 // special case, seems not from spec '|\\.[0-9_]+(?:[eE][-+]?[0-9]+)?' + // 20:59 '|[-+]?[0-9][0-9_]*(?::[0-5]?[0-9])+\\.[0-9_]*' + // .inf '|[-+]?\\.(?:inf|Inf|INF)' + // .nan '|\\.(?:nan|NaN|NAN))$'); function resolveYamlFloat(data) { if (data === null) return false; if (!YAML_FLOAT_PATTERN.test(data) || // Quick hack to not allow integers end with `_` // Probably should update regexp & check speed data[data.length - 1] === '_') { return false; } return true; } function constructYamlFloat(data) { var value, sign, base, digits; value = data.replace(/_/g, '').toLowerCase(); sign = value[0] === '-' ? -1 : 1; digits = []; if ('+-'.indexOf(value[0]) >= 0) { value = value.slice(1); } if (value === '.inf') { return (sign === 1) ? Number.POSITIVE_INFINITY : Number.NEGATIVE_INFINITY; } else if (value === '.nan') { return NaN; } else if (value.indexOf(':') >= 0) { value.split(':').forEach(function (v) { digits.unshift(parseFloat(v, 10)); }); value = 0.0; base = 1; digits.forEach(function (d) { value += d * base; base *= 60; }); return sign * value; } return sign * parseFloat(value, 10); } var SCIENTIFIC_WITHOUT_DOT = /^[-+]?[0-9]+e/; function representYamlFloat(object, style) { var res; if (isNaN(object)) { switch (style) { case 'lowercase': return '.nan'; case 'uppercase': return '.NAN'; case 'camelcase': return '.NaN'; } } else if (Number.POSITIVE_INFINITY === object) { switch (style) { case 'lowercase': return '.inf'; case 'uppercase': return '.INF'; case 'camelcase': return '.Inf'; } } else if (Number.NEGATIVE_INFINITY === object) { switch (style) { case 'lowercase': return '-.inf'; case 'uppercase': return '-.INF'; case 'camelcase': return '-.Inf'; } } else if (common.isNegativeZero(object)) { return '-0.0'; } res = object.toString(10); // JS stringifier can build scientific format without dots: 5e-100, // while YAML requres dot: 5.e-100. Fix it with simple hack return SCIENTIFIC_WITHOUT_DOT.test(res) ? res.replace('e', '.e') : res; } function isFloat(object) { return (Object.prototype.toString.call(object) === '[object Number]') && (object % 1 !== 0 || common.isNegativeZero(object)); } module.exports = new Type('tag:yaml.org,2002:float', { kind: 'scalar', resolve: resolveYamlFloat, construct: constructYamlFloat, predicate: isFloat, represent: representYamlFloat, defaultStyle: 'lowercase' }); /***/ }), /***/ 89963: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; var common = __nccwpck_require__(59136); var Type = __nccwpck_require__(30967); function isHexCode(c) { return ((0x30/* 0 */ <= c) && (c <= 0x39/* 9 */)) || ((0x41/* A */ <= c) && (c <= 0x46/* F */)) || ((0x61/* a */ <= c) && (c <= 0x66/* f */)); } function isOctCode(c) { return ((0x30/* 0 */ <= c) && (c <= 0x37/* 7 */)); } function isDecCode(c) { return ((0x30/* 0 */ <= c) && (c <= 0x39/* 9 */)); } function resolveYamlInteger(data) { if (data === null) return false; var max = data.length, index = 0, hasDigits = false, ch; if (!max) return false; ch = data[index]; // sign if (ch === '-' || ch === '+') { ch = data[++index]; } if (ch === '0') { // 0 if (index + 1 === max) return true; ch = data[++index]; // base 2, base 8, base 16 if (ch === 'b') { // base 2 index++; for (; index < max; index++) { ch = data[index]; if (ch === '_') continue; if (ch !== '0' && ch !== '1') return false; hasDigits = true; } return hasDigits && ch !== '_'; } if (ch === 'x') { // base 16 index++; for (; index < max; index++) { ch = data[index]; if (ch === '_') continue; if (!isHexCode(data.charCodeAt(index))) return false; hasDigits = true; } return hasDigits && ch !== '_'; } // base 8 for (; index < max; index++) { ch = data[index]; if (ch === '_') continue; if (!isOctCode(data.charCodeAt(index))) return false; hasDigits = true; } return hasDigits && ch !== '_'; } // base 10 (except 0) or base 60 // value should not start with `_`; if (ch === '_') return false; for (; index < max; index++) { ch = data[index]; if (ch === '_') continue; if (ch === ':') break; if (!isDecCode(data.charCodeAt(index))) { return false; } hasDigits = true; } // Should have digits and should not end with `_` if (!hasDigits || ch === '_') return false; // if !base60 - done; if (ch !== ':') return true; // base60 almost not used, no needs to optimize return /^(:[0-5]?[0-9])+$/.test(data.slice(index)); } function constructYamlInteger(data) { var value = data, sign = 1, ch, base, digits = []; if (value.indexOf('_') !== -1) { value = value.replace(/_/g, ''); } ch = value[0]; if (ch === '-' || ch === '+') { if (ch === '-') sign = -1; value = value.slice(1); ch = value[0]; } if (value === '0') return 0; if (ch === '0') { if (value[1] === 'b') return sign * parseInt(value.slice(2), 2); if (value[1] === 'x') return sign * parseInt(value, 16); return sign * parseInt(value, 8); } if (value.indexOf(':') !== -1) { value.split(':').forEach(function (v) { digits.unshift(parseInt(v, 10)); }); value = 0; base = 1; digits.forEach(function (d) { value += (d * base); base *= 60; }); return sign * value; } return sign * parseInt(value, 10); } function isInteger(object) { return (Object.prototype.toString.call(object)) === '[object Number]' && (object % 1 === 0 && !common.isNegativeZero(object)); } module.exports = new Type('tag:yaml.org,2002:int', { kind: 'scalar', resolve: resolveYamlInteger, construct: constructYamlInteger, predicate: isInteger, represent: { binary: function (obj) { return obj >= 0 ? '0b' + obj.toString(2) : '-0b' + obj.toString(2).slice(1); }, octal: function (obj) { return obj >= 0 ? '0' + obj.toString(8) : '-0' + obj.toString(8).slice(1); }, decimal: function (obj) { return obj.toString(10); }, /* eslint-disable max-len */ hexadecimal: function (obj) { return obj >= 0 ? '0x' + obj.toString(16).toUpperCase() : '-0x' + obj.toString(16).toUpperCase().slice(1); } }, defaultStyle: 'decimal', styleAliases: { binary: [ 2, 'bin' ], octal: [ 8, 'oct' ], decimal: [ 10, 'dec' ], hexadecimal: [ 16, 'hex' ] } }); /***/ }), /***/ 27278: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; var esprima; // Browserified version does not have esprima // // 1. For node.js just require module as deps // 2. For browser try to require mudule via external AMD system. // If not found - try to fallback to window.esprima. If not // found too - then fail to parse. // try { // workaround to exclude package from browserify list. var _require = require; esprima = _require('esprima'); } catch (_) { /* eslint-disable no-redeclare */ /* global window */ if (typeof window !== 'undefined') esprima = window.esprima; } var Type = __nccwpck_require__(30967); function resolveJavascriptFunction(data) { if (data === null) return false; try { var source = '(' + data + ')', ast = esprima.parse(source, { range: true }); if (ast.type !== 'Program' || ast.body.length !== 1 || ast.body[0].type !== 'ExpressionStatement' || (ast.body[0].expression.type !== 'ArrowFunctionExpression' && ast.body[0].expression.type !== 'FunctionExpression')) { return false; } return true; } catch (err) { return false; } } function constructJavascriptFunction(data) { /*jslint evil:true*/ var source = '(' + data + ')', ast = esprima.parse(source, { range: true }), params = [], body; if (ast.type !== 'Program' || ast.body.length !== 1 || ast.body[0].type !== 'ExpressionStatement' || (ast.body[0].expression.type !== 'ArrowFunctionExpression' && ast.body[0].expression.type !== 'FunctionExpression')) { throw new Error('Failed to resolve function'); } ast.body[0].expression.params.forEach(function (param) { params.push(param.name); }); body = ast.body[0].expression.body.range; // Esprima's ranges include the first '{' and the last '}' characters on // function expressions. So cut them out. if (ast.body[0].expression.body.type === 'BlockStatement') { /*eslint-disable no-new-func*/ return new Function(params, source.slice(body[0] + 1, body[1] - 1)); } // ES6 arrow functions can omit the BlockStatement. In that case, just return // the body. /*eslint-disable no-new-func*/ return new Function(params, 'return ' + source.slice(body[0], body[1])); } function representJavascriptFunction(object /*, style*/) { return object.toString(); } function isFunction(object) { return Object.prototype.toString.call(object) === '[object Function]'; } module.exports = new Type('tag:yaml.org,2002:js/function', { kind: 'scalar', resolve: resolveJavascriptFunction, construct: constructJavascriptFunction, predicate: isFunction, represent: representJavascriptFunction }); /***/ }), /***/ 69242: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; var Type = __nccwpck_require__(30967); function resolveJavascriptRegExp(data) { if (data === null) return false; if (data.length === 0) return false; var regexp = data, tail = /\/([gim]*)$/.exec(data), modifiers = ''; // if regexp starts with '/' it can have modifiers and must be properly closed // `/foo/gim` - modifiers tail can be maximum 3 chars if (regexp[0] === '/') { if (tail) modifiers = tail[1]; if (modifiers.length > 3) return false; // if expression starts with /, is should be properly terminated if (regexp[regexp.length - modifiers.length - 1] !== '/') return false; } return true; } function constructJavascriptRegExp(data) { var regexp = data, tail = /\/([gim]*)$/.exec(data), modifiers = ''; // `/foo/gim` - tail can be maximum 4 chars if (regexp[0] === '/') { if (tail) modifiers = tail[1]; regexp = regexp.slice(1, regexp.length - modifiers.length - 1); } return new RegExp(regexp, modifiers); } function representJavascriptRegExp(object /*, style*/) { var result = '/' + object.source + '/'; if (object.global) result += 'g'; if (object.multiline) result += 'm'; if (object.ignoreCase) result += 'i'; return result; } function isRegExp(object) { return Object.prototype.toString.call(object) === '[object RegExp]'; } module.exports = new Type('tag:yaml.org,2002:js/regexp', { kind: 'scalar', resolve: resolveJavascriptRegExp, construct: constructJavascriptRegExp, predicate: isRegExp, represent: representJavascriptRegExp }); /***/ }), /***/ 25914: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; var Type = __nccwpck_require__(30967); function resolveJavascriptUndefined() { return true; } function constructJavascriptUndefined() { /*eslint-disable no-undefined*/ return undefined; } function representJavascriptUndefined() { return ''; } function isUndefined(object) { return typeof object === 'undefined'; } module.exports = new Type('tag:yaml.org,2002:js/undefined', { kind: 'scalar', resolve: resolveJavascriptUndefined, construct: constructJavascriptUndefined, predicate: isUndefined, represent: representJavascriptUndefined }); /***/ }), /***/ 31173: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; var Type = __nccwpck_require__(30967); module.exports = new Type('tag:yaml.org,2002:map', { kind: 'mapping', construct: function (data) { return data !== null ? data : {}; } }); /***/ }), /***/ 81393: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; var Type = __nccwpck_require__(30967); function resolveYamlMerge(data) { return data === '<<' || data === null; } module.exports = new Type('tag:yaml.org,2002:merge', { kind: 'scalar', resolve: resolveYamlMerge }); /***/ }), /***/ 22671: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; var Type = __nccwpck_require__(30967); function resolveYamlNull(data) { if (data === null) return true; var max = data.length; return (max === 1 && data === '~') || (max === 4 && (data === 'null' || data === 'Null' || data === 'NULL')); } function constructYamlNull() { return null; } function isNull(object) { return object === null; } module.exports = new Type('tag:yaml.org,2002:null', { kind: 'scalar', resolve: resolveYamlNull, construct: constructYamlNull, predicate: isNull, represent: { canonical: function () { return '~'; }, lowercase: function () { return 'null'; }, uppercase: function () { return 'NULL'; }, camelcase: function () { return 'Null'; } }, defaultStyle: 'lowercase' }); /***/ }), /***/ 96668: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; var Type = __nccwpck_require__(30967); var _hasOwnProperty = Object.prototype.hasOwnProperty; var _toString = Object.prototype.toString; function resolveYamlOmap(data) { if (data === null) return true; var objectKeys = [], index, length, pair, pairKey, pairHasKey, object = data; for (index = 0, length = object.length; index < length; index += 1) { pair = object[index]; pairHasKey = false; if (_toString.call(pair) !== '[object Object]') return false; for (pairKey in pair) { if (_hasOwnProperty.call(pair, pairKey)) { if (!pairHasKey) pairHasKey = true; else return false; } } if (!pairHasKey) return false; if (objectKeys.indexOf(pairKey) === -1) objectKeys.push(pairKey); else return false; } return true; } function constructYamlOmap(data) { return data !== null ? data : []; } module.exports = new Type('tag:yaml.org,2002:omap', { kind: 'sequence', resolve: resolveYamlOmap, construct: constructYamlOmap }); /***/ }), /***/ 76039: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; var Type = __nccwpck_require__(30967); var _toString = Object.prototype.toString; function resolveYamlPairs(data) { if (data === null) return true; var index, length, pair, keys, result, object = data; result = new Array(object.length); for (index = 0, length = object.length; index < length; index += 1) { pair = object[index]; if (_toString.call(pair) !== '[object Object]') return false; keys = Object.keys(pair); if (keys.length !== 1) return false; result[index] = [ keys[0], pair[keys[0]] ]; } return true; } function constructYamlPairs(data) { if (data === null) return []; var index, length, pair, keys, result, object = data; result = new Array(object.length); for (index = 0, length = object.length; index < length; index += 1) { pair = object[index]; keys = Object.keys(pair); result[index] = [ keys[0], pair[keys[0]] ]; } return result; } module.exports = new Type('tag:yaml.org,2002:pairs', { kind: 'sequence', resolve: resolveYamlPairs, construct: constructYamlPairs }); /***/ }), /***/ 5490: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; var Type = __nccwpck_require__(30967); module.exports = new Type('tag:yaml.org,2002:seq', { kind: 'sequence', construct: function (data) { return data !== null ? data : []; } }); /***/ }), /***/ 69237: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; var Type = __nccwpck_require__(30967); var _hasOwnProperty = Object.prototype.hasOwnProperty; function resolveYamlSet(data) { if (data === null) return true; var key, object = data; for (key in object) { if (_hasOwnProperty.call(object, key)) { if (object[key] !== null) return false; } } return true; } function constructYamlSet(data) { return data !== null ? data : {}; } module.exports = new Type('tag:yaml.org,2002:set', { kind: 'mapping', resolve: resolveYamlSet, construct: constructYamlSet }); /***/ }), /***/ 52672: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; var Type = __nccwpck_require__(30967); module.exports = new Type('tag:yaml.org,2002:str', { kind: 'scalar', construct: function (data) { return data !== null ? data : ''; } }); /***/ }), /***/ 83714: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; var Type = __nccwpck_require__(30967); var YAML_DATE_REGEXP = new RegExp( '^([0-9][0-9][0-9][0-9])' + // [1] year '-([0-9][0-9])' + // [2] month '-([0-9][0-9])$'); // [3] day var YAML_TIMESTAMP_REGEXP = new RegExp( '^([0-9][0-9][0-9][0-9])' + // [1] year '-([0-9][0-9]?)' + // [2] month '-([0-9][0-9]?)' + // [3] day '(?:[Tt]|[ \\t]+)' + // ... '([0-9][0-9]?)' + // [4] hour ':([0-9][0-9])' + // [5] minute ':([0-9][0-9])' + // [6] second '(?:\\.([0-9]*))?' + // [7] fraction '(?:[ \\t]*(Z|([-+])([0-9][0-9]?)' + // [8] tz [9] tz_sign [10] tz_hour '(?::([0-9][0-9]))?))?$'); // [11] tz_minute function resolveYamlTimestamp(data) { if (data === null) return false; if (YAML_DATE_REGEXP.exec(data) !== null) return true; if (YAML_TIMESTAMP_REGEXP.exec(data) !== null) return true; return false; } function constructYamlTimestamp(data) { var match, year, month, day, hour, minute, second, fraction = 0, delta = null, tz_hour, tz_minute, date; match = YAML_DATE_REGEXP.exec(data); if (match === null) match = YAML_TIMESTAMP_REGEXP.exec(data); if (match === null) throw new Error('Date resolve error'); // match: [1] year [2] month [3] day year = +(match[1]); month = +(match[2]) - 1; // JS month starts with 0 day = +(match[3]); if (!match[4]) { // no hour return new Date(Date.UTC(year, month, day)); } // match: [4] hour [5] minute [6] second [7] fraction hour = +(match[4]); minute = +(match[5]); second = +(match[6]); if (match[7]) { fraction = match[7].slice(0, 3); while (fraction.length < 3) { // milli-seconds fraction += '0'; } fraction = +fraction; } // match: [8] tz [9] tz_sign [10] tz_hour [11] tz_minute if (match[9]) { tz_hour = +(match[10]); tz_minute = +(match[11] || 0); delta = (tz_hour * 60 + tz_minute) * 60000; // delta in mili-seconds if (match[9] === '-') delta = -delta; } date = new Date(Date.UTC(year, month, day, hour, minute, second, fraction)); if (delta) date.setTime(date.getTime() - delta); return date; } function representYamlTimestamp(object /*, style*/) { return object.toISOString(); } module.exports = new Type('tag:yaml.org,2002:timestamp', { kind: 'scalar', resolve: resolveYamlTimestamp, construct: constructYamlTimestamp, instanceOf: Date, represent: representYamlTimestamp }); /***/ }), /***/ 7129: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; // A linked list to keep track of recently-used-ness const Yallist = __nccwpck_require__(40665) const MAX = Symbol('max') const LENGTH = Symbol('length') const LENGTH_CALCULATOR = Symbol('lengthCalculator') const ALLOW_STALE = Symbol('allowStale') const MAX_AGE = Symbol('maxAge') const DISPOSE = Symbol('dispose') const NO_DISPOSE_ON_SET = Symbol('noDisposeOnSet') const LRU_LIST = Symbol('lruList') const CACHE = Symbol('cache') const UPDATE_AGE_ON_GET = Symbol('updateAgeOnGet') const naiveLength = () => 1 // lruList is a yallist where the head is the youngest // item, and the tail is the oldest. the list contains the Hit // objects as the entries. // Each Hit object has a reference to its Yallist.Node. This // never changes. // // cache is a Map (or PseudoMap) that matches the keys to // the Yallist.Node object. class LRUCache { constructor (options) { if (typeof options === 'number') options = { max: options } if (!options) options = {} if (options.max && (typeof options.max !== 'number' || options.max < 0)) throw new TypeError('max must be a non-negative number') // Kind of weird to have a default max of Infinity, but oh well. const max = this[MAX] = options.max || Infinity const lc = options.length || naiveLength this[LENGTH_CALCULATOR] = (typeof lc !== 'function') ? naiveLength : lc this[ALLOW_STALE] = options.stale || false if (options.maxAge && typeof options.maxAge !== 'number') throw new TypeError('maxAge must be a number') this[MAX_AGE] = options.maxAge || 0 this[DISPOSE] = options.dispose this[NO_DISPOSE_ON_SET] = options.noDisposeOnSet || false this[UPDATE_AGE_ON_GET] = options.updateAgeOnGet || false this.reset() } // resize the cache when the max changes. set max (mL) { if (typeof mL !== 'number' || mL < 0) throw new TypeError('max must be a non-negative number') this[MAX] = mL || Infinity trim(this) } get max () { return this[MAX] } set allowStale (allowStale) { this[ALLOW_STALE] = !!allowStale } get allowStale () { return this[ALLOW_STALE] } set maxAge (mA) { if (typeof mA !== 'number') throw new TypeError('maxAge must be a non-negative number') this[MAX_AGE] = mA trim(this) } get maxAge () { return this[MAX_AGE] } // resize the cache when the lengthCalculator changes. set lengthCalculator (lC) { if (typeof lC !== 'function') lC = naiveLength if (lC !== this[LENGTH_CALCULATOR]) { this[LENGTH_CALCULATOR] = lC this[LENGTH] = 0 this[LRU_LIST].forEach(hit => { hit.length = this[LENGTH_CALCULATOR](hit.value, hit.key) this[LENGTH] += hit.length }) } trim(this) } get lengthCalculator () { return this[LENGTH_CALCULATOR] } get length () { return this[LENGTH] } get itemCount () { return this[LRU_LIST].length } rforEach (fn, thisp) { thisp = thisp || this for (let walker = this[LRU_LIST].tail; walker !== null;) { const prev = walker.prev forEachStep(this, fn, walker, thisp) walker = prev } } forEach (fn, thisp) { thisp = thisp || this for (let walker = this[LRU_LIST].head; walker !== null;) { const next = walker.next forEachStep(this, fn, walker, thisp) walker = next } } keys () { return this[LRU_LIST].toArray().map(k => k.key) } values () { return this[LRU_LIST].toArray().map(k => k.value) } reset () { if (this[DISPOSE] && this[LRU_LIST] && this[LRU_LIST].length) { this[LRU_LIST].forEach(hit => this[DISPOSE](hit.key, hit.value)) } this[CACHE] = new Map() // hash of items by key this[LRU_LIST] = new Yallist() // list of items in order of use recency this[LENGTH] = 0 // length of items in the list } dump () { return this[LRU_LIST].map(hit => isStale(this, hit) ? false : { k: hit.key, v: hit.value, e: hit.now + (hit.maxAge || 0) }).toArray().filter(h => h) } dumpLru () { return this[LRU_LIST] } set (key, value, maxAge) { maxAge = maxAge || this[MAX_AGE] if (maxAge && typeof maxAge !== 'number') throw new TypeError('maxAge must be a number') const now = maxAge ? Date.now() : 0 const len = this[LENGTH_CALCULATOR](value, key) if (this[CACHE].has(key)) { if (len > this[MAX]) { del(this, this[CACHE].get(key)) return false } const node = this[CACHE].get(key) const item = node.value // dispose of the old one before overwriting // split out into 2 ifs for better coverage tracking if (this[DISPOSE]) { if (!this[NO_DISPOSE_ON_SET]) this[DISPOSE](key, item.value) } item.now = now item.maxAge = maxAge item.value = value this[LENGTH] += len - item.length item.length = len this.get(key) trim(this) return true } const hit = new Entry(key, value, len, now, maxAge) // oversized objects fall out of cache automatically. if (hit.length > this[MAX]) { if (this[DISPOSE]) this[DISPOSE](key, value) return false } this[LENGTH] += hit.length this[LRU_LIST].unshift(hit) this[CACHE].set(key, this[LRU_LIST].head) trim(this) return true } has (key) { if (!this[CACHE].has(key)) return false const hit = this[CACHE].get(key).value return !isStale(this, hit) } get (key) { return get(this, key, true) } peek (key) { return get(this, key, false) } pop () { const node = this[LRU_LIST].tail if (!node) return null del(this, node) return node.value } del (key) { del(this, this[CACHE].get(key)) } load (arr) { // reset the cache this.reset() const now = Date.now() // A previous serialized cache has the most recent items first for (let l = arr.length - 1; l >= 0; l--) { const hit = arr[l] const expiresAt = hit.e || 0 if (expiresAt === 0) // the item was created without expiration in a non aged cache this.set(hit.k, hit.v) else { const maxAge = expiresAt - now // dont add already expired items if (maxAge > 0) { this.set(hit.k, hit.v, maxAge) } } } } prune () { this[CACHE].forEach((value, key) => get(this, key, false)) } } const get = (self, key, doUse) => { const node = self[CACHE].get(key) if (node) { const hit = node.value if (isStale(self, hit)) { del(self, node) if (!self[ALLOW_STALE]) return undefined } else { if (doUse) { if (self[UPDATE_AGE_ON_GET]) node.value.now = Date.now() self[LRU_LIST].unshiftNode(node) } } return hit.value } } const isStale = (self, hit) => { if (!hit || (!hit.maxAge && !self[MAX_AGE])) return false const diff = Date.now() - hit.now return hit.maxAge ? diff > hit.maxAge : self[MAX_AGE] && (diff > self[MAX_AGE]) } const trim = self => { if (self[LENGTH] > self[MAX]) { for (let walker = self[LRU_LIST].tail; self[LENGTH] > self[MAX] && walker !== null;) { // We know that we're about to delete this one, and also // what the next least recently used key will be, so just // go ahead and set it now. const prev = walker.prev del(self, walker) walker = prev } } } const del = (self, node) => { if (node) { const hit = node.value if (self[DISPOSE]) self[DISPOSE](hit.key, hit.value) self[LENGTH] -= hit.length self[CACHE].delete(hit.key) self[LRU_LIST].removeNode(node) } } class Entry { constructor (key, value, length, now, maxAge) { this.key = key this.value = value this.length = length this.now = now this.maxAge = maxAge || 0 } } const forEachStep = (self, fn, node, thisp) => { let hit = node.value if (isStale(self, hit)) { del(self, node) if (!self[ALLOW_STALE]) hit = undefined } if (hit) fn.call(thisp, hit.value, hit.key, self) } module.exports = LRUCache /***/ }), /***/ 47426: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { /*! * mime-db * Copyright(c) 2014 Jonathan Ong * MIT Licensed */ /** * Module exports. */ module.exports = __nccwpck_require__(53765) /***/ }), /***/ 43583: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; /*! * mime-types * Copyright(c) 2014 Jonathan Ong * Copyright(c) 2015 Douglas Christopher Wilson * MIT Licensed */ /** * Module dependencies. * @private */ var db = __nccwpck_require__(47426) var extname = (__nccwpck_require__(71017).extname) /** * Module variables. * @private */ var EXTRACT_TYPE_REGEXP = /^\s*([^;\s]*)(?:;|\s|$)/ var TEXT_TYPE_REGEXP = /^text\//i /** * Module exports. * @public */ exports.charset = charset exports.charsets = { lookup: charset } exports.contentType = contentType exports.extension = extension exports.extensions = Object.create(null) exports.lookup = lookup exports.types = Object.create(null) // Populate the extensions/types maps populateMaps(exports.extensions, exports.types) /** * Get the default charset for a MIME type. * * @param {string} type * @return {boolean|string} */ function charset (type) { if (!type || typeof type !== 'string') { return false } // TODO: use media-typer var match = EXTRACT_TYPE_REGEXP.exec(type) var mime = match && db[match[1].toLowerCase()] if (mime && mime.charset) { return mime.charset } // default text/* to utf-8 if (match && TEXT_TYPE_REGEXP.test(match[1])) { return 'UTF-8' } return false } /** * Create a full Content-Type header given a MIME type or extension. * * @param {string} str * @return {boolean|string} */ function contentType (str) { // TODO: should this even be in this module? if (!str || typeof str !== 'string') { return false } var mime = str.indexOf('/') === -1 ? exports.lookup(str) : str if (!mime) { return false } // TODO: use content-type or other module if (mime.indexOf('charset') === -1) { var charset = exports.charset(mime) if (charset) mime += '; charset=' + charset.toLowerCase() } return mime } /** * Get the default extension for a MIME type. * * @param {string} type * @return {boolean|string} */ function extension (type) { if (!type || typeof type !== 'string') { return false } // TODO: use media-typer var match = EXTRACT_TYPE_REGEXP.exec(type) // get extensions var exts = match && exports.extensions[match[1].toLowerCase()] if (!exts || !exts.length) { return false } return exts[0] } /** * Lookup the MIME type for a file path/extension. * * @param {string} path * @return {boolean|string} */ function lookup (path) { if (!path || typeof path !== 'string') { return false } // get the extension ("ext" or ".ext" or full path) var extension = extname('x.' + path) .toLowerCase() .substr(1) if (!extension) { return false } return exports.types[extension] || false } /** * Populate the extensions and types maps. * @private */ function populateMaps (extensions, types) { // source preference (least -> most) var preference = ['nginx', 'apache', undefined, 'iana'] Object.keys(db).forEach(function forEachMimeType (type) { var mime = db[type] var exts = mime.extensions if (!exts || !exts.length) { return } // mime -> extensions extensions[type] = exts // extension -> mime for (var i = 0; i < exts.length; i++) { var extension = exts[i] if (types[extension]) { var from = preference.indexOf(db[types[extension]].source) var to = preference.indexOf(mime.source) if (types[extension] !== 'application/octet-stream' && (from > to || (from === to && types[extension].substr(0, 12) === 'application/'))) { // skip the remapping continue } } // set the extension -> mime types[extension] = type } }) } /***/ }), /***/ 83973: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { module.exports = minimatch minimatch.Minimatch = Minimatch var path = (function () { try { return __nccwpck_require__(71017) } catch (e) {}}()) || { sep: '/' } minimatch.sep = path.sep var GLOBSTAR = minimatch.GLOBSTAR = Minimatch.GLOBSTAR = {} var expand = __nccwpck_require__(33717) var plTypes = { '!': { open: '(?:(?!(?:', close: '))[^/]*?)'}, '?': { open: '(?:', close: ')?' }, '+': { open: '(?:', close: ')+' }, '*': { open: '(?:', close: ')*' }, '@': { open: '(?:', close: ')' } } // any single thing other than / // don't need to escape / when using new RegExp() var qmark = '[^/]' // * => any number of characters var star = qmark + '*?' // ** when dots are allowed. Anything goes, except .. and . // not (^ or / followed by one or two dots followed by $ or /), // followed by anything, any number of times. var twoStarDot = '(?:(?!(?:\\\/|^)(?:\\.{1,2})($|\\\/)).)*?' // not a ^ or / followed by a dot, // followed by anything, any number of times. var twoStarNoDot = '(?:(?!(?:\\\/|^)\\.).)*?' // characters that need to be escaped in RegExp. var reSpecials = charSet('().*{}+?[]^$\\!') // "abc" -> { a:true, b:true, c:true } function charSet (s) { return s.split('').reduce(function (set, c) { set[c] = true return set }, {}) } // normalizes slashes. var slashSplit = /\/+/ minimatch.filter = filter function filter (pattern, options) { options = options || {} return function (p, i, list) { return minimatch(p, pattern, options) } } function ext (a, b) { b = b || {} var t = {} Object.keys(a).forEach(function (k) { t[k] = a[k] }) Object.keys(b).forEach(function (k) { t[k] = b[k] }) return t } minimatch.defaults = function (def) { if (!def || typeof def !== 'object' || !Object.keys(def).length) { return minimatch } var orig = minimatch var m = function minimatch (p, pattern, options) { return orig(p, pattern, ext(def, options)) } m.Minimatch = function Minimatch (pattern, options) { return new orig.Minimatch(pattern, ext(def, options)) } m.Minimatch.defaults = function defaults (options) { return orig.defaults(ext(def, options)).Minimatch } m.filter = function filter (pattern, options) { return orig.filter(pattern, ext(def, options)) } m.defaults = function defaults (options) { return orig.defaults(ext(def, options)) } m.makeRe = function makeRe (pattern, options) { return orig.makeRe(pattern, ext(def, options)) } m.braceExpand = function braceExpand (pattern, options) { return orig.braceExpand(pattern, ext(def, options)) } m.match = function (list, pattern, options) { return orig.match(list, pattern, ext(def, options)) } return m } Minimatch.defaults = function (def) { return minimatch.defaults(def).Minimatch } function minimatch (p, pattern, options) { assertValidPattern(pattern) if (!options) options = {} // shortcut: comments match nothing. if (!options.nocomment && pattern.charAt(0) === '#') { return false } return new Minimatch(pattern, options).match(p) } function Minimatch (pattern, options) { if (!(this instanceof Minimatch)) { return new Minimatch(pattern, options) } assertValidPattern(pattern) if (!options) options = {} pattern = pattern.trim() // windows support: need to use /, not \ if (!options.allowWindowsEscape && path.sep !== '/') { pattern = pattern.split(path.sep).join('/') } this.options = options this.set = [] this.pattern = pattern this.regexp = null this.negate = false this.comment = false this.empty = false this.partial = !!options.partial // make the set of regexps etc. this.make() } Minimatch.prototype.debug = function () {} Minimatch.prototype.make = make function make () { var pattern = this.pattern var options = this.options // empty patterns and comments match nothing. if (!options.nocomment && pattern.charAt(0) === '#') { this.comment = true return } if (!pattern) { this.empty = true return } // step 1: figure out negation, etc. this.parseNegate() // step 2: expand braces var set = this.globSet = this.braceExpand() if (options.debug) this.debug = function debug() { console.error.apply(console, arguments) } this.debug(this.pattern, set) // step 3: now we have a set, so turn each one into a series of path-portion // matching patterns. // These will be regexps, except in the case of "**", which is // set to the GLOBSTAR object for globstar behavior, // and will not contain any / characters set = this.globParts = set.map(function (s) { return s.split(slashSplit) }) this.debug(this.pattern, set) // glob --> regexps set = set.map(function (s, si, set) { return s.map(this.parse, this) }, this) this.debug(this.pattern, set) // filter out everything that didn't compile properly. set = set.filter(function (s) { return s.indexOf(false) === -1 }) this.debug(this.pattern, set) this.set = set } Minimatch.prototype.parseNegate = parseNegate function parseNegate () { var pattern = this.pattern var negate = false var options = this.options var negateOffset = 0 if (options.nonegate) return for (var i = 0, l = pattern.length ; i < l && pattern.charAt(i) === '!' ; i++) { negate = !negate negateOffset++ } if (negateOffset) this.pattern = pattern.substr(negateOffset) this.negate = negate } // Brace expansion: // a{b,c}d -> abd acd // a{b,}c -> abc ac // a{0..3}d -> a0d a1d a2d a3d // a{b,c{d,e}f}g -> abg acdfg acefg // a{b,c}d{e,f}g -> abdeg acdeg abdeg abdfg // // Invalid sets are not expanded. // a{2..}b -> a{2..}b // a{b}c -> a{b}c minimatch.braceExpand = function (pattern, options) { return braceExpand(pattern, options) } Minimatch.prototype.braceExpand = braceExpand function braceExpand (pattern, options) { if (!options) { if (this instanceof Minimatch) { options = this.options } else { options = {} } } pattern = typeof pattern === 'undefined' ? this.pattern : pattern assertValidPattern(pattern) // Thanks to Yeting Li for // improving this regexp to avoid a ReDOS vulnerability. if (options.nobrace || !/\{(?:(?!\{).)*\}/.test(pattern)) { // shortcut. no need to expand. return [pattern] } return expand(pattern) } var MAX_PATTERN_LENGTH = 1024 * 64 var assertValidPattern = function (pattern) { if (typeof pattern !== 'string') { throw new TypeError('invalid pattern') } if (pattern.length > MAX_PATTERN_LENGTH) { throw new TypeError('pattern is too long') } } // parse a component of the expanded set. // At this point, no pattern may contain "/" in it // so we're going to return a 2d array, where each entry is the full // pattern, split on '/', and then turned into a regular expression. // A regexp is made at the end which joins each array with an // escaped /, and another full one which joins each regexp with |. // // Following the lead of Bash 4.1, note that "**" only has special meaning // when it is the *only* thing in a path portion. Otherwise, any series // of * is equivalent to a single *. Globstar behavior is enabled by // default, and can be disabled by setting options.noglobstar. Minimatch.prototype.parse = parse var SUBPARSE = {} function parse (pattern, isSub) { assertValidPattern(pattern) var options = this.options // shortcuts if (pattern === '**') { if (!options.noglobstar) return GLOBSTAR else pattern = '*' } if (pattern === '') return '' var re = '' var hasMagic = !!options.nocase var escaping = false // ? => one single character var patternListStack = [] var negativeLists = [] var stateChar var inClass = false var reClassStart = -1 var classStart = -1 // . and .. never match anything that doesn't start with ., // even when options.dot is set. var patternStart = pattern.charAt(0) === '.' ? '' // anything // not (start or / followed by . or .. followed by / or end) : options.dot ? '(?!(?:^|\\\/)\\.{1,2}(?:$|\\\/))' : '(?!\\.)' var self = this function clearStateChar () { if (stateChar) { // we had some state-tracking character // that wasn't consumed by this pass. switch (stateChar) { case '*': re += star hasMagic = true break case '?': re += qmark hasMagic = true break default: re += '\\' + stateChar break } self.debug('clearStateChar %j %j', stateChar, re) stateChar = false } } for (var i = 0, len = pattern.length, c ; (i < len) && (c = pattern.charAt(i)) ; i++) { this.debug('%s\t%s %s %j', pattern, i, re, c) // skip over any that are escaped. if (escaping && reSpecials[c]) { re += '\\' + c escaping = false continue } switch (c) { /* istanbul ignore next */ case '/': { // completely not allowed, even escaped. // Should already be path-split by now. return false } case '\\': clearStateChar() escaping = true continue // the various stateChar values // for the "extglob" stuff. case '?': case '*': case '+': case '@': case '!': this.debug('%s\t%s %s %j <-- stateChar', pattern, i, re, c) // all of those are literals inside a class, except that // the glob [!a] means [^a] in regexp if (inClass) { this.debug(' in class') if (c === '!' && i === classStart + 1) c = '^' re += c continue } // if we already have a stateChar, then it means // that there was something like ** or +? in there. // Handle the stateChar, then proceed with this one. self.debug('call clearStateChar %j', stateChar) clearStateChar() stateChar = c // if extglob is disabled, then +(asdf|foo) isn't a thing. // just clear the statechar *now*, rather than even diving into // the patternList stuff. if (options.noext) clearStateChar() continue case '(': if (inClass) { re += '(' continue } if (!stateChar) { re += '\\(' continue } patternListStack.push({ type: stateChar, start: i - 1, reStart: re.length, open: plTypes[stateChar].open, close: plTypes[stateChar].close }) // negation is (?:(?!js)[^/]*) re += stateChar === '!' ? '(?:(?!(?:' : '(?:' this.debug('plType %j %j', stateChar, re) stateChar = false continue case ')': if (inClass || !patternListStack.length) { re += '\\)' continue } clearStateChar() hasMagic = true var pl = patternListStack.pop() // negation is (?:(?!js)[^/]*) // The others are (?:) re += pl.close if (pl.type === '!') { negativeLists.push(pl) } pl.reEnd = re.length continue case '|': if (inClass || !patternListStack.length || escaping) { re += '\\|' escaping = false continue } clearStateChar() re += '|' continue // these are mostly the same in regexp and glob case '[': // swallow any state-tracking char before the [ clearStateChar() if (inClass) { re += '\\' + c continue } inClass = true classStart = i reClassStart = re.length re += c continue case ']': // a right bracket shall lose its special // meaning and represent itself in // a bracket expression if it occurs // first in the list. -- POSIX.2 2.8.3.2 if (i === classStart + 1 || !inClass) { re += '\\' + c escaping = false continue } // handle the case where we left a class open. // "[z-a]" is valid, equivalent to "\[z-a\]" // split where the last [ was, make sure we don't have // an invalid re. if so, re-walk the contents of the // would-be class to re-translate any characters that // were passed through as-is // TODO: It would probably be faster to determine this // without a try/catch and a new RegExp, but it's tricky // to do safely. For now, this is safe and works. var cs = pattern.substring(classStart + 1, i) try { RegExp('[' + cs + ']') } catch (er) { // not a valid class! var sp = this.parse(cs, SUBPARSE) re = re.substr(0, reClassStart) + '\\[' + sp[0] + '\\]' hasMagic = hasMagic || sp[1] inClass = false continue } // finish up the class. hasMagic = true inClass = false re += c continue default: // swallow any state char that wasn't consumed clearStateChar() if (escaping) { // no need escaping = false } else if (reSpecials[c] && !(c === '^' && inClass)) { re += '\\' } re += c } // switch } // for // handle the case where we left a class open. // "[abc" is valid, equivalent to "\[abc" if (inClass) { // split where the last [ was, and escape it // this is a huge pita. We now have to re-walk // the contents of the would-be class to re-translate // any characters that were passed through as-is cs = pattern.substr(classStart + 1) sp = this.parse(cs, SUBPARSE) re = re.substr(0, reClassStart) + '\\[' + sp[0] hasMagic = hasMagic || sp[1] } // handle the case where we had a +( thing at the *end* // of the pattern. // each pattern list stack adds 3 chars, and we need to go through // and escape any | chars that were passed through as-is for the regexp. // Go through and escape them, taking care not to double-escape any // | chars that were already escaped. for (pl = patternListStack.pop(); pl; pl = patternListStack.pop()) { var tail = re.slice(pl.reStart + pl.open.length) this.debug('setting tail', re, pl) // maybe some even number of \, then maybe 1 \, followed by a | tail = tail.replace(/((?:\\{2}){0,64})(\\?)\|/g, function (_, $1, $2) { if (!$2) { // the | isn't already escaped, so escape it. $2 = '\\' } // need to escape all those slashes *again*, without escaping the // one that we need for escaping the | character. As it works out, // escaping an even number of slashes can be done by simply repeating // it exactly after itself. That's why this trick works. // // I am sorry that you have to see this. return $1 + $1 + $2 + '|' }) this.debug('tail=%j\n %s', tail, tail, pl, re) var t = pl.type === '*' ? star : pl.type === '?' ? qmark : '\\' + pl.type hasMagic = true re = re.slice(0, pl.reStart) + t + '\\(' + tail } // handle trailing things that only matter at the very end. clearStateChar() if (escaping) { // trailing \\ re += '\\\\' } // only need to apply the nodot start if the re starts with // something that could conceivably capture a dot var addPatternStart = false switch (re.charAt(0)) { case '[': case '.': case '(': addPatternStart = true } // Hack to work around lack of negative lookbehind in JS // A pattern like: *.!(x).!(y|z) needs to ensure that a name // like 'a.xyz.yz' doesn't match. So, the first negative // lookahead, has to look ALL the way ahead, to the end of // the pattern. for (var n = negativeLists.length - 1; n > -1; n--) { var nl = negativeLists[n] var nlBefore = re.slice(0, nl.reStart) var nlFirst = re.slice(nl.reStart, nl.reEnd - 8) var nlLast = re.slice(nl.reEnd - 8, nl.reEnd) var nlAfter = re.slice(nl.reEnd) nlLast += nlAfter // Handle nested stuff like *(*.js|!(*.json)), where open parens // mean that we should *not* include the ) in the bit that is considered // "after" the negated section. var openParensBefore = nlBefore.split('(').length - 1 var cleanAfter = nlAfter for (i = 0; i < openParensBefore; i++) { cleanAfter = cleanAfter.replace(/\)[+*?]?/, '') } nlAfter = cleanAfter var dollar = '' if (nlAfter === '' && isSub !== SUBPARSE) { dollar = '$' } var newRe = nlBefore + nlFirst + nlAfter + dollar + nlLast re = newRe } // if the re is not "" at this point, then we need to make sure // it doesn't match against an empty path part. // Otherwise a/* will match a/, which it should not. if (re !== '' && hasMagic) { re = '(?=.)' + re } if (addPatternStart) { re = patternStart + re } // parsing just a piece of a larger pattern. if (isSub === SUBPARSE) { return [re, hasMagic] } // skip the regexp for non-magical patterns // unescape anything in it, though, so that it'll be // an exact match against a file etc. if (!hasMagic) { return globUnescape(pattern) } var flags = options.nocase ? 'i' : '' try { var regExp = new RegExp('^' + re + '$', flags) } catch (er) /* istanbul ignore next - should be impossible */ { // If it was an invalid regular expression, then it can't match // anything. This trick looks for a character after the end of // the string, which is of course impossible, except in multi-line // mode, but it's not a /m regex. return new RegExp('$.') } regExp._glob = pattern regExp._src = re return regExp } minimatch.makeRe = function (pattern, options) { return new Minimatch(pattern, options || {}).makeRe() } Minimatch.prototype.makeRe = makeRe function makeRe () { if (this.regexp || this.regexp === false) return this.regexp // at this point, this.set is a 2d array of partial // pattern strings, or "**". // // It's better to use .match(). This function shouldn't // be used, really, but it's pretty convenient sometimes, // when you just want to work with a regex. var set = this.set if (!set.length) { this.regexp = false return this.regexp } var options = this.options var twoStar = options.noglobstar ? star : options.dot ? twoStarDot : twoStarNoDot var flags = options.nocase ? 'i' : '' var re = set.map(function (pattern) { return pattern.map(function (p) { return (p === GLOBSTAR) ? twoStar : (typeof p === 'string') ? regExpEscape(p) : p._src }).join('\\\/') }).join('|') // must match entire pattern // ending in a * or ** will make it less strict. re = '^(?:' + re + ')$' // can match anything, as long as it's not this. if (this.negate) re = '^(?!' + re + ').*$' try { this.regexp = new RegExp(re, flags) } catch (ex) /* istanbul ignore next - should be impossible */ { this.regexp = false } return this.regexp } minimatch.match = function (list, pattern, options) { options = options || {} var mm = new Minimatch(pattern, options) list = list.filter(function (f) { return mm.match(f) }) if (mm.options.nonull && !list.length) { list.push(pattern) } return list } Minimatch.prototype.match = function match (f, partial) { if (typeof partial === 'undefined') partial = this.partial this.debug('match', f, this.pattern) // short-circuit in the case of busted things. // comments, etc. if (this.comment) return false if (this.empty) return f === '' if (f === '/' && partial) return true var options = this.options // windows: need to use /, not \ if (path.sep !== '/') { f = f.split(path.sep).join('/') } // treat the test path as a set of pathparts. f = f.split(slashSplit) this.debug(this.pattern, 'split', f) // just ONE of the pattern sets in this.set needs to match // in order for it to be valid. If negating, then just one // match means that we have failed. // Either way, return on the first hit. var set = this.set this.debug(this.pattern, 'set', set) // Find the basename of the path by looking for the last non-empty segment var filename var i for (i = f.length - 1; i >= 0; i--) { filename = f[i] if (filename) break } for (i = 0; i < set.length; i++) { var pattern = set[i] var file = f if (options.matchBase && pattern.length === 1) { file = [filename] } var hit = this.matchOne(file, pattern, partial) if (hit) { if (options.flipNegate) return true return !this.negate } } // didn't get any hits. this is success if it's a negative // pattern, failure otherwise. if (options.flipNegate) return false return this.negate } // set partial to true to test if, for example, // "/a/b" matches the start of "/*/b/*/d" // Partial means, if you run out of file before you run // out of pattern, then that's fine, as long as all // the parts match. Minimatch.prototype.matchOne = function (file, pattern, partial) { var options = this.options this.debug('matchOne', { 'this': this, file: file, pattern: pattern }) this.debug('matchOne', file.length, pattern.length) for (var fi = 0, pi = 0, fl = file.length, pl = pattern.length ; (fi < fl) && (pi < pl) ; fi++, pi++) { this.debug('matchOne loop') var p = pattern[pi] var f = file[fi] this.debug(pattern, p, f) // should be impossible. // some invalid regexp stuff in the set. /* istanbul ignore if */ if (p === false) return false if (p === GLOBSTAR) { this.debug('GLOBSTAR', [pattern, p, f]) // "**" // a/**/b/**/c would match the following: // a/b/x/y/z/c // a/x/y/z/b/c // a/b/x/b/x/c // a/b/c // To do this, take the rest of the pattern after // the **, and see if it would match the file remainder. // If so, return success. // If not, the ** "swallows" a segment, and try again. // This is recursively awful. // // a/**/b/**/c matching a/b/x/y/z/c // - a matches a // - doublestar // - matchOne(b/x/y/z/c, b/**/c) // - b matches b // - doublestar // - matchOne(x/y/z/c, c) -> no // - matchOne(y/z/c, c) -> no // - matchOne(z/c, c) -> no // - matchOne(c, c) yes, hit var fr = fi var pr = pi + 1 if (pr === pl) { this.debug('** at the end') // a ** at the end will just swallow the rest. // We have found a match. // however, it will not swallow /.x, unless // options.dot is set. // . and .. are *never* matched by **, for explosively // exponential reasons. for (; fi < fl; fi++) { if (file[fi] === '.' || file[fi] === '..' || (!options.dot && file[fi].charAt(0) === '.')) return false } return true } // ok, let's see if we can swallow whatever we can. while (fr < fl) { var swallowee = file[fr] this.debug('\nglobstar while', file, fr, pattern, pr, swallowee) // XXX remove this slice. Just pass the start index. if (this.matchOne(file.slice(fr), pattern.slice(pr), partial)) { this.debug('globstar found match!', fr, fl, swallowee) // found a match. return true } else { // can't swallow "." or ".." ever. // can only swallow ".foo" when explicitly asked. if (swallowee === '.' || swallowee === '..' || (!options.dot && swallowee.charAt(0) === '.')) { this.debug('dot detected!', file, fr, pattern, pr) break } // ** swallows a segment, and continue. this.debug('globstar swallow a segment, and continue') fr++ } } // no match was found. // However, in partial mode, we can't say this is necessarily over. // If there's more *pattern* left, then /* istanbul ignore if */ if (partial) { // ran out of file this.debug('\n>>> no match, partial?', file, fr, pattern, pr) if (fr === fl) return true } return false } // something other than ** // non-magic patterns just have to match exactly // patterns with magic have been turned into regexps. var hit if (typeof p === 'string') { hit = f === p this.debug('string match', p, f, hit) } else { hit = f.match(p) this.debug('pattern match', p, f, hit) } if (!hit) return false } // Note: ending in / means that we'll get a final "" // at the end of the pattern. This can only match a // corresponding "" at the end of the file. // If the file ends in /, then it can only match a // a pattern that ends in /, unless the pattern just // doesn't have any more for it. But, a/b/ should *not* // match "a/b/*", even though "" matches against the // [^/]*? pattern, except in partial mode, where it might // simply not be reached yet. // However, a/b/ should still satisfy a/* // now either we fell off the end of the pattern, or we're done. if (fi === fl && pi === pl) { // ran out of pattern and filename at the same time. // an exact hit! return true } else if (fi === fl) { // ran out of file, but still had pattern left. // this is ok if we're doing the match as part of // a glob fs traversal. return partial } else /* istanbul ignore else */ if (pi === pl) { // ran out of pattern, still have file left. // this is only acceptable if we're on the very last // empty segment of a file with a trailing slash. // a/* should match a/b/ return (fi === fl - 1) && (file[fi] === '') } // should be unreachable. /* istanbul ignore next */ throw new Error('wtf?') } // replace stuff like \* with * function globUnescape (s) { return s.replace(/\\(.)/g, '$1') } function regExpEscape (s) { return s.replace(/[-[\]{}()*+?.,\\^$|#\s]/g, '\\$&') } /***/ }), /***/ 80467: /***/ ((module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); function _interopDefault (ex) { return (ex && (typeof ex === 'object') && 'default' in ex) ? ex['default'] : ex; } var Stream = _interopDefault(__nccwpck_require__(12781)); var http = _interopDefault(__nccwpck_require__(13685)); var Url = _interopDefault(__nccwpck_require__(57310)); var whatwgUrl = _interopDefault(__nccwpck_require__(73323)); var https = _interopDefault(__nccwpck_require__(95687)); var zlib = _interopDefault(__nccwpck_require__(59796)); // Based on https://github.com/tmpvar/jsdom/blob/aa85b2abf07766ff7bf5c1f6daafb3726f2f2db5/lib/jsdom/living/blob.js // fix for "Readable" isn't a named export issue const Readable = Stream.Readable; const BUFFER = Symbol('buffer'); const TYPE = Symbol('type'); class Blob { constructor() { this[TYPE] = ''; const blobParts = arguments[0]; const options = arguments[1]; const buffers = []; let size = 0; if (blobParts) { const a = blobParts; const length = Number(a.length); for (let i = 0; i < length; i++) { const element = a[i]; let buffer; if (element instanceof Buffer) { buffer = element; } else if (ArrayBuffer.isView(element)) { buffer = Buffer.from(element.buffer, element.byteOffset, element.byteLength); } else if (element instanceof ArrayBuffer) { buffer = Buffer.from(element); } else if (element instanceof Blob) { buffer = element[BUFFER]; } else { buffer = Buffer.from(typeof element === 'string' ? element : String(element)); } size += buffer.length; buffers.push(buffer); } } this[BUFFER] = Buffer.concat(buffers); let type = options && options.type !== undefined && String(options.type).toLowerCase(); if (type && !/[^\u0020-\u007E]/.test(type)) { this[TYPE] = type; } } get size() { return this[BUFFER].length; } get type() { return this[TYPE]; } text() { return Promise.resolve(this[BUFFER].toString()); } arrayBuffer() { const buf = this[BUFFER]; const ab = buf.buffer.slice(buf.byteOffset, buf.byteOffset + buf.byteLength); return Promise.resolve(ab); } stream() { const readable = new Readable(); readable._read = function () {}; readable.push(this[BUFFER]); readable.push(null); return readable; } toString() { return '[object Blob]'; } slice() { const size = this.size; const start = arguments[0]; const end = arguments[1]; let relativeStart, relativeEnd; if (start === undefined) { relativeStart = 0; } else if (start < 0) { relativeStart = Math.max(size + start, 0); } else { relativeStart = Math.min(start, size); } if (end === undefined) { relativeEnd = size; } else if (end < 0) { relativeEnd = Math.max(size + end, 0); } else { relativeEnd = Math.min(end, size); } const span = Math.max(relativeEnd - relativeStart, 0); const buffer = this[BUFFER]; const slicedBuffer = buffer.slice(relativeStart, relativeStart + span); const blob = new Blob([], { type: arguments[2] }); blob[BUFFER] = slicedBuffer; return blob; } } Object.defineProperties(Blob.prototype, { size: { enumerable: true }, type: { enumerable: true }, slice: { enumerable: true } }); Object.defineProperty(Blob.prototype, Symbol.toStringTag, { value: 'Blob', writable: false, enumerable: false, configurable: true }); /** * fetch-error.js * * FetchError interface for operational errors */ /** * Create FetchError instance * * @param String message Error message for human * @param String type Error type for machine * @param String systemError For Node.js system error * @return FetchError */ function FetchError(message, type, systemError) { Error.call(this, message); this.message = message; this.type = type; // when err.type is `system`, err.code contains system error code if (systemError) { this.code = this.errno = systemError.code; } // hide custom error implementation details from end-users Error.captureStackTrace(this, this.constructor); } FetchError.prototype = Object.create(Error.prototype); FetchError.prototype.constructor = FetchError; FetchError.prototype.name = 'FetchError'; let convert; try { convert = (__nccwpck_require__(22877).convert); } catch (e) {} const INTERNALS = Symbol('Body internals'); // fix an issue where "PassThrough" isn't a named export for node <10 const PassThrough = Stream.PassThrough; /** * Body mixin * * Ref: https://fetch.spec.whatwg.org/#body * * @param Stream body Readable stream * @param Object opts Response options * @return Void */ function Body(body) { var _this = this; var _ref = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {}, _ref$size = _ref.size; let size = _ref$size === undefined ? 0 : _ref$size; var _ref$timeout = _ref.timeout; let timeout = _ref$timeout === undefined ? 0 : _ref$timeout; if (body == null) { // body is undefined or null body = null; } else if (isURLSearchParams(body)) { // body is a URLSearchParams body = Buffer.from(body.toString()); } else if (isBlob(body)) ; else if (Buffer.isBuffer(body)) ; else if (Object.prototype.toString.call(body) === '[object ArrayBuffer]') { // body is ArrayBuffer body = Buffer.from(body); } else if (ArrayBuffer.isView(body)) { // body is ArrayBufferView body = Buffer.from(body.buffer, body.byteOffset, body.byteLength); } else if (body instanceof Stream) ; else { // none of the above // coerce to string then buffer body = Buffer.from(String(body)); } this[INTERNALS] = { body, disturbed: false, error: null }; this.size = size; this.timeout = timeout; if (body instanceof Stream) { body.on('error', function (err) { const error = err.name === 'AbortError' ? err : new FetchError(`Invalid response body while trying to fetch ${_this.url}: ${err.message}`, 'system', err); _this[INTERNALS].error = error; }); } } Body.prototype = { get body() { return this[INTERNALS].body; }, get bodyUsed() { return this[INTERNALS].disturbed; }, /** * Decode response as ArrayBuffer * * @return Promise */ arrayBuffer() { return consumeBody.call(this).then(function (buf) { return buf.buffer.slice(buf.byteOffset, buf.byteOffset + buf.byteLength); }); }, /** * Return raw response as Blob * * @return Promise */ blob() { let ct = this.headers && this.headers.get('content-type') || ''; return consumeBody.call(this).then(function (buf) { return Object.assign( // Prevent copying new Blob([], { type: ct.toLowerCase() }), { [BUFFER]: buf }); }); }, /** * Decode response as json * * @return Promise */ json() { var _this2 = this; return consumeBody.call(this).then(function (buffer) { try { return JSON.parse(buffer.toString()); } catch (err) { return Body.Promise.reject(new FetchError(`invalid json response body at ${_this2.url} reason: ${err.message}`, 'invalid-json')); } }); }, /** * Decode response as text * * @return Promise */ text() { return consumeBody.call(this).then(function (buffer) { return buffer.toString(); }); }, /** * Decode response as buffer (non-spec api) * * @return Promise */ buffer() { return consumeBody.call(this); }, /** * Decode response as text, while automatically detecting the encoding and * trying to decode to UTF-8 (non-spec api) * * @return Promise */ textConverted() { var _this3 = this; return consumeBody.call(this).then(function (buffer) { return convertBody(buffer, _this3.headers); }); } }; // In browsers, all properties are enumerable. Object.defineProperties(Body.prototype, { body: { enumerable: true }, bodyUsed: { enumerable: true }, arrayBuffer: { enumerable: true }, blob: { enumerable: true }, json: { enumerable: true }, text: { enumerable: true } }); Body.mixIn = function (proto) { for (const name of Object.getOwnPropertyNames(Body.prototype)) { // istanbul ignore else: future proof if (!(name in proto)) { const desc = Object.getOwnPropertyDescriptor(Body.prototype, name); Object.defineProperty(proto, name, desc); } } }; /** * Consume and convert an entire Body to a Buffer. * * Ref: https://fetch.spec.whatwg.org/#concept-body-consume-body * * @return Promise */ function consumeBody() { var _this4 = this; if (this[INTERNALS].disturbed) { return Body.Promise.reject(new TypeError(`body used already for: ${this.url}`)); } this[INTERNALS].disturbed = true; if (this[INTERNALS].error) { return Body.Promise.reject(this[INTERNALS].error); } let body = this.body; // body is null if (body === null) { return Body.Promise.resolve(Buffer.alloc(0)); } // body is blob if (isBlob(body)) { body = body.stream(); } // body is buffer if (Buffer.isBuffer(body)) { return Body.Promise.resolve(body); } // istanbul ignore if: should never happen if (!(body instanceof Stream)) { return Body.Promise.resolve(Buffer.alloc(0)); } // body is stream // get ready to actually consume the body let accum = []; let accumBytes = 0; let abort = false; return new Body.Promise(function (resolve, reject) { let resTimeout; // allow timeout on slow response body if (_this4.timeout) { resTimeout = setTimeout(function () { abort = true; reject(new FetchError(`Response timeout while trying to fetch ${_this4.url} (over ${_this4.timeout}ms)`, 'body-timeout')); }, _this4.timeout); } // handle stream errors body.on('error', function (err) { if (err.name === 'AbortError') { // if the request was aborted, reject with this Error abort = true; reject(err); } else { // other errors, such as incorrect content-encoding reject(new FetchError(`Invalid response body while trying to fetch ${_this4.url}: ${err.message}`, 'system', err)); } }); body.on('data', function (chunk) { if (abort || chunk === null) { return; } if (_this4.size && accumBytes + chunk.length > _this4.size) { abort = true; reject(new FetchError(`content size at ${_this4.url} over limit: ${_this4.size}`, 'max-size')); return; } accumBytes += chunk.length; accum.push(chunk); }); body.on('end', function () { if (abort) { return; } clearTimeout(resTimeout); try { resolve(Buffer.concat(accum, accumBytes)); } catch (err) { // handle streams that have accumulated too much data (issue #414) reject(new FetchError(`Could not create Buffer from response body for ${_this4.url}: ${err.message}`, 'system', err)); } }); }); } /** * Detect buffer encoding and convert to target encoding * ref: http://www.w3.org/TR/2011/WD-html5-20110113/parsing.html#determining-the-character-encoding * * @param Buffer buffer Incoming buffer * @param String encoding Target encoding * @return String */ function convertBody(buffer, headers) { if (typeof convert !== 'function') { throw new Error('The package `encoding` must be installed to use the textConverted() function'); } const ct = headers.get('content-type'); let charset = 'utf-8'; let res, str; // header if (ct) { res = /charset=([^;]*)/i.exec(ct); } // no charset in content type, peek at response body for at most 1024 bytes str = buffer.slice(0, 1024).toString(); // html5 if (!res && str) { res = / 0 && arguments[0] !== undefined ? arguments[0] : undefined; this[MAP] = Object.create(null); if (init instanceof Headers) { const rawHeaders = init.raw(); const headerNames = Object.keys(rawHeaders); for (const headerName of headerNames) { for (const value of rawHeaders[headerName]) { this.append(headerName, value); } } return; } // We don't worry about converting prop to ByteString here as append() // will handle it. if (init == null) ; else if (typeof init === 'object') { const method = init[Symbol.iterator]; if (method != null) { if (typeof method !== 'function') { throw new TypeError('Header pairs must be iterable'); } // sequence> // Note: per spec we have to first exhaust the lists then process them const pairs = []; for (const pair of init) { if (typeof pair !== 'object' || typeof pair[Symbol.iterator] !== 'function') { throw new TypeError('Each header pair must be iterable'); } pairs.push(Array.from(pair)); } for (const pair of pairs) { if (pair.length !== 2) { throw new TypeError('Each header pair must be a name/value tuple'); } this.append(pair[0], pair[1]); } } else { // record for (const key of Object.keys(init)) { const value = init[key]; this.append(key, value); } } } else { throw new TypeError('Provided initializer must be an object'); } } /** * Return combined header value given name * * @param String name Header name * @return Mixed */ get(name) { name = `${name}`; validateName(name); const key = find(this[MAP], name); if (key === undefined) { return null; } return this[MAP][key].join(', '); } /** * Iterate over all headers * * @param Function callback Executed for each item with parameters (value, name, thisArg) * @param Boolean thisArg `this` context for callback function * @return Void */ forEach(callback) { let thisArg = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : undefined; let pairs = getHeaders(this); let i = 0; while (i < pairs.length) { var _pairs$i = pairs[i]; const name = _pairs$i[0], value = _pairs$i[1]; callback.call(thisArg, value, name, this); pairs = getHeaders(this); i++; } } /** * Overwrite header values given name * * @param String name Header name * @param String value Header value * @return Void */ set(name, value) { name = `${name}`; value = `${value}`; validateName(name); validateValue(value); const key = find(this[MAP], name); this[MAP][key !== undefined ? key : name] = [value]; } /** * Append a value onto existing header * * @param String name Header name * @param String value Header value * @return Void */ append(name, value) { name = `${name}`; value = `${value}`; validateName(name); validateValue(value); const key = find(this[MAP], name); if (key !== undefined) { this[MAP][key].push(value); } else { this[MAP][name] = [value]; } } /** * Check for header name existence * * @param String name Header name * @return Boolean */ has(name) { name = `${name}`; validateName(name); return find(this[MAP], name) !== undefined; } /** * Delete all header values given name * * @param String name Header name * @return Void */ delete(name) { name = `${name}`; validateName(name); const key = find(this[MAP], name); if (key !== undefined) { delete this[MAP][key]; } } /** * Return raw headers (non-spec api) * * @return Object */ raw() { return this[MAP]; } /** * Get an iterator on keys. * * @return Iterator */ keys() { return createHeadersIterator(this, 'key'); } /** * Get an iterator on values. * * @return Iterator */ values() { return createHeadersIterator(this, 'value'); } /** * Get an iterator on entries. * * This is the default iterator of the Headers object. * * @return Iterator */ [Symbol.iterator]() { return createHeadersIterator(this, 'key+value'); } } Headers.prototype.entries = Headers.prototype[Symbol.iterator]; Object.defineProperty(Headers.prototype, Symbol.toStringTag, { value: 'Headers', writable: false, enumerable: false, configurable: true }); Object.defineProperties(Headers.prototype, { get: { enumerable: true }, forEach: { enumerable: true }, set: { enumerable: true }, append: { enumerable: true }, has: { enumerable: true }, delete: { enumerable: true }, keys: { enumerable: true }, values: { enumerable: true }, entries: { enumerable: true } }); function getHeaders(headers) { let kind = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : 'key+value'; const keys = Object.keys(headers[MAP]).sort(); return keys.map(kind === 'key' ? function (k) { return k.toLowerCase(); } : kind === 'value' ? function (k) { return headers[MAP][k].join(', '); } : function (k) { return [k.toLowerCase(), headers[MAP][k].join(', ')]; }); } const INTERNAL = Symbol('internal'); function createHeadersIterator(target, kind) { const iterator = Object.create(HeadersIteratorPrototype); iterator[INTERNAL] = { target, kind, index: 0 }; return iterator; } const HeadersIteratorPrototype = Object.setPrototypeOf({ next() { // istanbul ignore if if (!this || Object.getPrototypeOf(this) !== HeadersIteratorPrototype) { throw new TypeError('Value of `this` is not a HeadersIterator'); } var _INTERNAL = this[INTERNAL]; const target = _INTERNAL.target, kind = _INTERNAL.kind, index = _INTERNAL.index; const values = getHeaders(target, kind); const len = values.length; if (index >= len) { return { value: undefined, done: true }; } this[INTERNAL].index = index + 1; return { value: values[index], done: false }; } }, Object.getPrototypeOf(Object.getPrototypeOf([][Symbol.iterator]()))); Object.defineProperty(HeadersIteratorPrototype, Symbol.toStringTag, { value: 'HeadersIterator', writable: false, enumerable: false, configurable: true }); /** * Export the Headers object in a form that Node.js can consume. * * @param Headers headers * @return Object */ function exportNodeCompatibleHeaders(headers) { const obj = Object.assign({ __proto__: null }, headers[MAP]); // http.request() only supports string as Host header. This hack makes // specifying custom Host header possible. const hostHeaderKey = find(headers[MAP], 'Host'); if (hostHeaderKey !== undefined) { obj[hostHeaderKey] = obj[hostHeaderKey][0]; } return obj; } /** * Create a Headers object from an object of headers, ignoring those that do * not conform to HTTP grammar productions. * * @param Object obj Object of headers * @return Headers */ function createHeadersLenient(obj) { const headers = new Headers(); for (const name of Object.keys(obj)) { if (invalidTokenRegex.test(name)) { continue; } if (Array.isArray(obj[name])) { for (const val of obj[name]) { if (invalidHeaderCharRegex.test(val)) { continue; } if (headers[MAP][name] === undefined) { headers[MAP][name] = [val]; } else { headers[MAP][name].push(val); } } } else if (!invalidHeaderCharRegex.test(obj[name])) { headers[MAP][name] = [obj[name]]; } } return headers; } const INTERNALS$1 = Symbol('Response internals'); // fix an issue where "STATUS_CODES" aren't a named export for node <10 const STATUS_CODES = http.STATUS_CODES; /** * Response class * * @param Stream body Readable stream * @param Object opts Response options * @return Void */ class Response { constructor() { let body = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : null; let opts = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {}; Body.call(this, body, opts); const status = opts.status || 200; const headers = new Headers(opts.headers); if (body != null && !headers.has('Content-Type')) { const contentType = extractContentType(body); if (contentType) { headers.append('Content-Type', contentType); } } this[INTERNALS$1] = { url: opts.url, status, statusText: opts.statusText || STATUS_CODES[status], headers, counter: opts.counter }; } get url() { return this[INTERNALS$1].url || ''; } get status() { return this[INTERNALS$1].status; } /** * Convenience property representing if the request ended normally */ get ok() { return this[INTERNALS$1].status >= 200 && this[INTERNALS$1].status < 300; } get redirected() { return this[INTERNALS$1].counter > 0; } get statusText() { return this[INTERNALS$1].statusText; } get headers() { return this[INTERNALS$1].headers; } /** * Clone this response * * @return Response */ clone() { return new Response(clone(this), { url: this.url, status: this.status, statusText: this.statusText, headers: this.headers, ok: this.ok, redirected: this.redirected }); } } Body.mixIn(Response.prototype); Object.defineProperties(Response.prototype, { url: { enumerable: true }, status: { enumerable: true }, ok: { enumerable: true }, redirected: { enumerable: true }, statusText: { enumerable: true }, headers: { enumerable: true }, clone: { enumerable: true } }); Object.defineProperty(Response.prototype, Symbol.toStringTag, { value: 'Response', writable: false, enumerable: false, configurable: true }); const INTERNALS$2 = Symbol('Request internals'); const URL = Url.URL || whatwgUrl.URL; // fix an issue where "format", "parse" aren't a named export for node <10 const parse_url = Url.parse; const format_url = Url.format; /** * Wrapper around `new URL` to handle arbitrary URLs * * @param {string} urlStr * @return {void} */ function parseURL(urlStr) { /* Check whether the URL is absolute or not Scheme: https://tools.ietf.org/html/rfc3986#section-3.1 Absolute URL: https://tools.ietf.org/html/rfc3986#section-4.3 */ if (/^[a-zA-Z][a-zA-Z\d+\-.]*:/.exec(urlStr)) { urlStr = new URL(urlStr).toString(); } // Fallback to old implementation for arbitrary URLs return parse_url(urlStr); } const streamDestructionSupported = 'destroy' in Stream.Readable.prototype; /** * Check if a value is an instance of Request. * * @param Mixed input * @return Boolean */ function isRequest(input) { return typeof input === 'object' && typeof input[INTERNALS$2] === 'object'; } function isAbortSignal(signal) { const proto = signal && typeof signal === 'object' && Object.getPrototypeOf(signal); return !!(proto && proto.constructor.name === 'AbortSignal'); } /** * Request class * * @param Mixed input Url or Request instance * @param Object init Custom options * @return Void */ class Request { constructor(input) { let init = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {}; let parsedURL; // normalize input if (!isRequest(input)) { if (input && input.href) { // in order to support Node.js' Url objects; though WHATWG's URL objects // will fall into this branch also (since their `toString()` will return // `href` property anyway) parsedURL = parseURL(input.href); } else { // coerce input to a string before attempting to parse parsedURL = parseURL(`${input}`); } input = {}; } else { parsedURL = parseURL(input.url); } let method = init.method || input.method || 'GET'; method = method.toUpperCase(); if ((init.body != null || isRequest(input) && input.body !== null) && (method === 'GET' || method === 'HEAD')) { throw new TypeError('Request with GET/HEAD method cannot have body'); } let inputBody = init.body != null ? init.body : isRequest(input) && input.body !== null ? clone(input) : null; Body.call(this, inputBody, { timeout: init.timeout || input.timeout || 0, size: init.size || input.size || 0 }); const headers = new Headers(init.headers || input.headers || {}); if (inputBody != null && !headers.has('Content-Type')) { const contentType = extractContentType(inputBody); if (contentType) { headers.append('Content-Type', contentType); } } let signal = isRequest(input) ? input.signal : null; if ('signal' in init) signal = init.signal; if (signal != null && !isAbortSignal(signal)) { throw new TypeError('Expected signal to be an instanceof AbortSignal'); } this[INTERNALS$2] = { method, redirect: init.redirect || input.redirect || 'follow', headers, parsedURL, signal }; // node-fetch-only options this.follow = init.follow !== undefined ? init.follow : input.follow !== undefined ? input.follow : 20; this.compress = init.compress !== undefined ? init.compress : input.compress !== undefined ? input.compress : true; this.counter = init.counter || input.counter || 0; this.agent = init.agent || input.agent; } get method() { return this[INTERNALS$2].method; } get url() { return format_url(this[INTERNALS$2].parsedURL); } get headers() { return this[INTERNALS$2].headers; } get redirect() { return this[INTERNALS$2].redirect; } get signal() { return this[INTERNALS$2].signal; } /** * Clone this request * * @return Request */ clone() { return new Request(this); } } Body.mixIn(Request.prototype); Object.defineProperty(Request.prototype, Symbol.toStringTag, { value: 'Request', writable: false, enumerable: false, configurable: true }); Object.defineProperties(Request.prototype, { method: { enumerable: true }, url: { enumerable: true }, headers: { enumerable: true }, redirect: { enumerable: true }, clone: { enumerable: true }, signal: { enumerable: true } }); /** * Convert a Request to Node.js http request options. * * @param Request A Request instance * @return Object The options object to be passed to http.request */ function getNodeRequestOptions(request) { const parsedURL = request[INTERNALS$2].parsedURL; const headers = new Headers(request[INTERNALS$2].headers); // fetch step 1.3 if (!headers.has('Accept')) { headers.set('Accept', '*/*'); } // Basic fetch if (!parsedURL.protocol || !parsedURL.hostname) { throw new TypeError('Only absolute URLs are supported'); } if (!/^https?:$/.test(parsedURL.protocol)) { throw new TypeError('Only HTTP(S) protocols are supported'); } if (request.signal && request.body instanceof Stream.Readable && !streamDestructionSupported) { throw new Error('Cancellation of streamed requests with AbortSignal is not supported in node < 8'); } // HTTP-network-or-cache fetch steps 2.4-2.7 let contentLengthValue = null; if (request.body == null && /^(POST|PUT)$/i.test(request.method)) { contentLengthValue = '0'; } if (request.body != null) { const totalBytes = getTotalBytes(request); if (typeof totalBytes === 'number') { contentLengthValue = String(totalBytes); } } if (contentLengthValue) { headers.set('Content-Length', contentLengthValue); } // HTTP-network-or-cache fetch step 2.11 if (!headers.has('User-Agent')) { headers.set('User-Agent', 'node-fetch/1.0 (+https://github.com/bitinn/node-fetch)'); } // HTTP-network-or-cache fetch step 2.15 if (request.compress && !headers.has('Accept-Encoding')) { headers.set('Accept-Encoding', 'gzip,deflate'); } let agent = request.agent; if (typeof agent === 'function') { agent = agent(parsedURL); } if (!headers.has('Connection') && !agent) { headers.set('Connection', 'close'); } // HTTP-network fetch step 4.2 // chunked encoding is handled by Node.js return Object.assign({}, parsedURL, { method: request.method, headers: exportNodeCompatibleHeaders(headers), agent }); } /** * abort-error.js * * AbortError interface for cancelled requests */ /** * Create AbortError instance * * @param String message Error message for human * @return AbortError */ function AbortError(message) { Error.call(this, message); this.type = 'aborted'; this.message = message; // hide custom error implementation details from end-users Error.captureStackTrace(this, this.constructor); } AbortError.prototype = Object.create(Error.prototype); AbortError.prototype.constructor = AbortError; AbortError.prototype.name = 'AbortError'; const URL$1 = Url.URL || whatwgUrl.URL; // fix an issue where "PassThrough", "resolve" aren't a named export for node <10 const PassThrough$1 = Stream.PassThrough; const isDomainOrSubdomain = function isDomainOrSubdomain(destination, original) { const orig = new URL$1(original).hostname; const dest = new URL$1(destination).hostname; return orig === dest || orig[orig.length - dest.length - 1] === '.' && orig.endsWith(dest); }; /** * Fetch function * * @param Mixed url Absolute url or Request instance * @param Object opts Fetch options * @return Promise */ function fetch(url, opts) { // allow custom promise if (!fetch.Promise) { throw new Error('native promise missing, set fetch.Promise to your favorite alternative'); } Body.Promise = fetch.Promise; // wrap http.request into fetch return new fetch.Promise(function (resolve, reject) { // build request object const request = new Request(url, opts); const options = getNodeRequestOptions(request); const send = (options.protocol === 'https:' ? https : http).request; const signal = request.signal; let response = null; const abort = function abort() { let error = new AbortError('The user aborted a request.'); reject(error); if (request.body && request.body instanceof Stream.Readable) { request.body.destroy(error); } if (!response || !response.body) return; response.body.emit('error', error); }; if (signal && signal.aborted) { abort(); return; } const abortAndFinalize = function abortAndFinalize() { abort(); finalize(); }; // send request const req = send(options); let reqTimeout; if (signal) { signal.addEventListener('abort', abortAndFinalize); } function finalize() { req.abort(); if (signal) signal.removeEventListener('abort', abortAndFinalize); clearTimeout(reqTimeout); } if (request.timeout) { req.once('socket', function (socket) { reqTimeout = setTimeout(function () { reject(new FetchError(`network timeout at: ${request.url}`, 'request-timeout')); finalize(); }, request.timeout); }); } req.on('error', function (err) { reject(new FetchError(`request to ${request.url} failed, reason: ${err.message}`, 'system', err)); finalize(); }); req.on('response', function (res) { clearTimeout(reqTimeout); const headers = createHeadersLenient(res.headers); // HTTP fetch step 5 if (fetch.isRedirect(res.statusCode)) { // HTTP fetch step 5.2 const location = headers.get('Location'); // HTTP fetch step 5.3 let locationURL = null; try { locationURL = location === null ? null : new URL$1(location, request.url).toString(); } catch (err) { // error here can only be invalid URL in Location: header // do not throw when options.redirect == manual // let the user extract the errorneous redirect URL if (request.redirect !== 'manual') { reject(new FetchError(`uri requested responds with an invalid redirect URL: ${location}`, 'invalid-redirect')); finalize(); return; } } // HTTP fetch step 5.5 switch (request.redirect) { case 'error': reject(new FetchError(`uri requested responds with a redirect, redirect mode is set to error: ${request.url}`, 'no-redirect')); finalize(); return; case 'manual': // node-fetch-specific step: make manual redirect a bit easier to use by setting the Location header value to the resolved URL. if (locationURL !== null) { // handle corrupted header try { headers.set('Location', locationURL); } catch (err) { // istanbul ignore next: nodejs server prevent invalid response headers, we can't test this through normal request reject(err); } } break; case 'follow': // HTTP-redirect fetch step 2 if (locationURL === null) { break; } // HTTP-redirect fetch step 5 if (request.counter >= request.follow) { reject(new FetchError(`maximum redirect reached at: ${request.url}`, 'max-redirect')); finalize(); return; } // HTTP-redirect fetch step 6 (counter increment) // Create a new Request object. const requestOpts = { headers: new Headers(request.headers), follow: request.follow, counter: request.counter + 1, agent: request.agent, compress: request.compress, method: request.method, body: request.body, signal: request.signal, timeout: request.timeout, size: request.size }; if (!isDomainOrSubdomain(request.url, locationURL)) { for (const name of ['authorization', 'www-authenticate', 'cookie', 'cookie2']) { requestOpts.headers.delete(name); } } // HTTP-redirect fetch step 9 if (res.statusCode !== 303 && request.body && getTotalBytes(request) === null) { reject(new FetchError('Cannot follow redirect with body being a readable stream', 'unsupported-redirect')); finalize(); return; } // HTTP-redirect fetch step 11 if (res.statusCode === 303 || (res.statusCode === 301 || res.statusCode === 302) && request.method === 'POST') { requestOpts.method = 'GET'; requestOpts.body = undefined; requestOpts.headers.delete('content-length'); } // HTTP-redirect fetch step 15 resolve(fetch(new Request(locationURL, requestOpts))); finalize(); return; } } // prepare response res.once('end', function () { if (signal) signal.removeEventListener('abort', abortAndFinalize); }); let body = res.pipe(new PassThrough$1()); const response_options = { url: request.url, status: res.statusCode, statusText: res.statusMessage, headers: headers, size: request.size, timeout: request.timeout, counter: request.counter }; // HTTP-network fetch step 12.1.1.3 const codings = headers.get('Content-Encoding'); // HTTP-network fetch step 12.1.1.4: handle content codings // in following scenarios we ignore compression support // 1. compression support is disabled // 2. HEAD request // 3. no Content-Encoding header // 4. no content response (204) // 5. content not modified response (304) if (!request.compress || request.method === 'HEAD' || codings === null || res.statusCode === 204 || res.statusCode === 304) { response = new Response(body, response_options); resolve(response); return; } // For Node v6+ // Be less strict when decoding compressed responses, since sometimes // servers send slightly invalid responses that are still accepted // by common browsers. // Always using Z_SYNC_FLUSH is what cURL does. const zlibOptions = { flush: zlib.Z_SYNC_FLUSH, finishFlush: zlib.Z_SYNC_FLUSH }; // for gzip if (codings == 'gzip' || codings == 'x-gzip') { body = body.pipe(zlib.createGunzip(zlibOptions)); response = new Response(body, response_options); resolve(response); return; } // for deflate if (codings == 'deflate' || codings == 'x-deflate') { // handle the infamous raw deflate response from old servers // a hack for old IIS and Apache servers const raw = res.pipe(new PassThrough$1()); raw.once('data', function (chunk) { // see http://stackoverflow.com/questions/37519828 if ((chunk[0] & 0x0F) === 0x08) { body = body.pipe(zlib.createInflate()); } else { body = body.pipe(zlib.createInflateRaw()); } response = new Response(body, response_options); resolve(response); }); return; } // for br if (codings == 'br' && typeof zlib.createBrotliDecompress === 'function') { body = body.pipe(zlib.createBrotliDecompress()); response = new Response(body, response_options); resolve(response); return; } // otherwise, use response as-is response = new Response(body, response_options); resolve(response); }); writeToStream(req, request); }); } /** * Redirect code matching * * @param Number code Status code * @return Boolean */ fetch.isRedirect = function (code) { return code === 301 || code === 302 || code === 303 || code === 307 || code === 308; }; // expose Promise fetch.Promise = global.Promise; module.exports = exports = fetch; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = exports; exports.Headers = Headers; exports.Request = Request; exports.Response = Response; exports.FetchError = FetchError; /***/ }), /***/ 42299: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; var punycode = __nccwpck_require__(85477); var mappingTable = __nccwpck_require__(1907); var PROCESSING_OPTIONS = { TRANSITIONAL: 0, NONTRANSITIONAL: 1 }; function normalize(str) { // fix bug in v8 return str.split('\u0000').map(function (s) { return s.normalize('NFC'); }).join('\u0000'); } function findStatus(val) { var start = 0; var end = mappingTable.length - 1; while (start <= end) { var mid = Math.floor((start + end) / 2); var target = mappingTable[mid]; if (target[0][0] <= val && target[0][1] >= val) { return target; } else if (target[0][0] > val) { end = mid - 1; } else { start = mid + 1; } } return null; } var regexAstralSymbols = /[\uD800-\uDBFF][\uDC00-\uDFFF]/g; function countSymbols(string) { return string // replace every surrogate pair with a BMP symbol .replace(regexAstralSymbols, '_') // then get the length .length; } function mapChars(domain_name, useSTD3, processing_option) { var hasError = false; var processed = ""; var len = countSymbols(domain_name); for (var i = 0; i < len; ++i) { var codePoint = domain_name.codePointAt(i); var status = findStatus(codePoint); switch (status[1]) { case "disallowed": hasError = true; processed += String.fromCodePoint(codePoint); break; case "ignored": break; case "mapped": processed += String.fromCodePoint.apply(String, status[2]); break; case "deviation": if (processing_option === PROCESSING_OPTIONS.TRANSITIONAL) { processed += String.fromCodePoint.apply(String, status[2]); } else { processed += String.fromCodePoint(codePoint); } break; case "valid": processed += String.fromCodePoint(codePoint); break; case "disallowed_STD3_mapped": if (useSTD3) { hasError = true; processed += String.fromCodePoint(codePoint); } else { processed += String.fromCodePoint.apply(String, status[2]); } break; case "disallowed_STD3_valid": if (useSTD3) { hasError = true; } processed += String.fromCodePoint(codePoint); break; } } return { string: processed, error: hasError }; } var combiningMarksRegex = /[\u0300-\u036F\u0483-\u0489\u0591-\u05BD\u05BF\u05C1\u05C2\u05C4\u05C5\u05C7\u0610-\u061A\u064B-\u065F\u0670\u06D6-\u06DC\u06DF-\u06E4\u06E7\u06E8\u06EA-\u06ED\u0711\u0730-\u074A\u07A6-\u07B0\u07EB-\u07F3\u0816-\u0819\u081B-\u0823\u0825-\u0827\u0829-\u082D\u0859-\u085B\u08E4-\u0903\u093A-\u093C\u093E-\u094F\u0951-\u0957\u0962\u0963\u0981-\u0983\u09BC\u09BE-\u09C4\u09C7\u09C8\u09CB-\u09CD\u09D7\u09E2\u09E3\u0A01-\u0A03\u0A3C\u0A3E-\u0A42\u0A47\u0A48\u0A4B-\u0A4D\u0A51\u0A70\u0A71\u0A75\u0A81-\u0A83\u0ABC\u0ABE-\u0AC5\u0AC7-\u0AC9\u0ACB-\u0ACD\u0AE2\u0AE3\u0B01-\u0B03\u0B3C\u0B3E-\u0B44\u0B47\u0B48\u0B4B-\u0B4D\u0B56\u0B57\u0B62\u0B63\u0B82\u0BBE-\u0BC2\u0BC6-\u0BC8\u0BCA-\u0BCD\u0BD7\u0C00-\u0C03\u0C3E-\u0C44\u0C46-\u0C48\u0C4A-\u0C4D\u0C55\u0C56\u0C62\u0C63\u0C81-\u0C83\u0CBC\u0CBE-\u0CC4\u0CC6-\u0CC8\u0CCA-\u0CCD\u0CD5\u0CD6\u0CE2\u0CE3\u0D01-\u0D03\u0D3E-\u0D44\u0D46-\u0D48\u0D4A-\u0D4D\u0D57\u0D62\u0D63\u0D82\u0D83\u0DCA\u0DCF-\u0DD4\u0DD6\u0DD8-\u0DDF\u0DF2\u0DF3\u0E31\u0E34-\u0E3A\u0E47-\u0E4E\u0EB1\u0EB4-\u0EB9\u0EBB\u0EBC\u0EC8-\u0ECD\u0F18\u0F19\u0F35\u0F37\u0F39\u0F3E\u0F3F\u0F71-\u0F84\u0F86\u0F87\u0F8D-\u0F97\u0F99-\u0FBC\u0FC6\u102B-\u103E\u1056-\u1059\u105E-\u1060\u1062-\u1064\u1067-\u106D\u1071-\u1074\u1082-\u108D\u108F\u109A-\u109D\u135D-\u135F\u1712-\u1714\u1732-\u1734\u1752\u1753\u1772\u1773\u17B4-\u17D3\u17DD\u180B-\u180D\u18A9\u1920-\u192B\u1930-\u193B\u19B0-\u19C0\u19C8\u19C9\u1A17-\u1A1B\u1A55-\u1A5E\u1A60-\u1A7C\u1A7F\u1AB0-\u1ABE\u1B00-\u1B04\u1B34-\u1B44\u1B6B-\u1B73\u1B80-\u1B82\u1BA1-\u1BAD\u1BE6-\u1BF3\u1C24-\u1C37\u1CD0-\u1CD2\u1CD4-\u1CE8\u1CED\u1CF2-\u1CF4\u1CF8\u1CF9\u1DC0-\u1DF5\u1DFC-\u1DFF\u20D0-\u20F0\u2CEF-\u2CF1\u2D7F\u2DE0-\u2DFF\u302A-\u302F\u3099\u309A\uA66F-\uA672\uA674-\uA67D\uA69F\uA6F0\uA6F1\uA802\uA806\uA80B\uA823-\uA827\uA880\uA881\uA8B4-\uA8C4\uA8E0-\uA8F1\uA926-\uA92D\uA947-\uA953\uA980-\uA983\uA9B3-\uA9C0\uA9E5\uAA29-\uAA36\uAA43\uAA4C\uAA4D\uAA7B-\uAA7D\uAAB0\uAAB2-\uAAB4\uAAB7\uAAB8\uAABE\uAABF\uAAC1\uAAEB-\uAAEF\uAAF5\uAAF6\uABE3-\uABEA\uABEC\uABED\uFB1E\uFE00-\uFE0F\uFE20-\uFE2D]|\uD800[\uDDFD\uDEE0\uDF76-\uDF7A]|\uD802[\uDE01-\uDE03\uDE05\uDE06\uDE0C-\uDE0F\uDE38-\uDE3A\uDE3F\uDEE5\uDEE6]|\uD804[\uDC00-\uDC02\uDC38-\uDC46\uDC7F-\uDC82\uDCB0-\uDCBA\uDD00-\uDD02\uDD27-\uDD34\uDD73\uDD80-\uDD82\uDDB3-\uDDC0\uDE2C-\uDE37\uDEDF-\uDEEA\uDF01-\uDF03\uDF3C\uDF3E-\uDF44\uDF47\uDF48\uDF4B-\uDF4D\uDF57\uDF62\uDF63\uDF66-\uDF6C\uDF70-\uDF74]|\uD805[\uDCB0-\uDCC3\uDDAF-\uDDB5\uDDB8-\uDDC0\uDE30-\uDE40\uDEAB-\uDEB7]|\uD81A[\uDEF0-\uDEF4\uDF30-\uDF36]|\uD81B[\uDF51-\uDF7E\uDF8F-\uDF92]|\uD82F[\uDC9D\uDC9E]|\uD834[\uDD65-\uDD69\uDD6D-\uDD72\uDD7B-\uDD82\uDD85-\uDD8B\uDDAA-\uDDAD\uDE42-\uDE44]|\uD83A[\uDCD0-\uDCD6]|\uDB40[\uDD00-\uDDEF]/; function validateLabel(label, processing_option) { if (label.substr(0, 4) === "xn--") { label = punycode.toUnicode(label); processing_option = PROCESSING_OPTIONS.NONTRANSITIONAL; } var error = false; if (normalize(label) !== label || (label[3] === "-" && label[4] === "-") || label[0] === "-" || label[label.length - 1] === "-" || label.indexOf(".") !== -1 || label.search(combiningMarksRegex) === 0) { error = true; } var len = countSymbols(label); for (var i = 0; i < len; ++i) { var status = findStatus(label.codePointAt(i)); if ((processing === PROCESSING_OPTIONS.TRANSITIONAL && status[1] !== "valid") || (processing === PROCESSING_OPTIONS.NONTRANSITIONAL && status[1] !== "valid" && status[1] !== "deviation")) { error = true; break; } } return { label: label, error: error }; } function processing(domain_name, useSTD3, processing_option) { var result = mapChars(domain_name, useSTD3, processing_option); result.string = normalize(result.string); var labels = result.string.split("."); for (var i = 0; i < labels.length; ++i) { try { var validation = validateLabel(labels[i]); labels[i] = validation.label; result.error = result.error || validation.error; } catch(e) { result.error = true; } } return { string: labels.join("."), error: result.error }; } module.exports.toASCII = function(domain_name, useSTD3, processing_option, verifyDnsLength) { var result = processing(domain_name, useSTD3, processing_option); var labels = result.string.split("."); labels = labels.map(function(l) { try { return punycode.toASCII(l); } catch(e) { result.error = true; return l; } }); if (verifyDnsLength) { var total = labels.slice(0, labels.length - 1).join(".").length; if (total.length > 253 || total.length === 0) { result.error = true; } for (var i=0; i < labels.length; ++i) { if (labels.length > 63 || labels.length === 0) { result.error = true; break; } } } if (result.error) return null; return labels.join("."); }; module.exports.toUnicode = function(domain_name, useSTD3) { var result = processing(domain_name, useSTD3, PROCESSING_OPTIONS.NONTRANSITIONAL); return { domain: result.string, error: result.error }; }; module.exports.PROCESSING_OPTIONS = PROCESSING_OPTIONS; /***/ }), /***/ 15871: /***/ ((module) => { "use strict"; var conversions = {}; module.exports = conversions; function sign(x) { return x < 0 ? -1 : 1; } function evenRound(x) { // Round x to the nearest integer, choosing the even integer if it lies halfway between two. if ((x % 1) === 0.5 && (x & 1) === 0) { // [even number].5; round down (i.e. floor) return Math.floor(x); } else { return Math.round(x); } } function createNumberConversion(bitLength, typeOpts) { if (!typeOpts.unsigned) { --bitLength; } const lowerBound = typeOpts.unsigned ? 0 : -Math.pow(2, bitLength); const upperBound = Math.pow(2, bitLength) - 1; const moduloVal = typeOpts.moduloBitLength ? Math.pow(2, typeOpts.moduloBitLength) : Math.pow(2, bitLength); const moduloBound = typeOpts.moduloBitLength ? Math.pow(2, typeOpts.moduloBitLength - 1) : Math.pow(2, bitLength - 1); return function(V, opts) { if (!opts) opts = {}; let x = +V; if (opts.enforceRange) { if (!Number.isFinite(x)) { throw new TypeError("Argument is not a finite number"); } x = sign(x) * Math.floor(Math.abs(x)); if (x < lowerBound || x > upperBound) { throw new TypeError("Argument is not in byte range"); } return x; } if (!isNaN(x) && opts.clamp) { x = evenRound(x); if (x < lowerBound) x = lowerBound; if (x > upperBound) x = upperBound; return x; } if (!Number.isFinite(x) || x === 0) { return 0; } x = sign(x) * Math.floor(Math.abs(x)); x = x % moduloVal; if (!typeOpts.unsigned && x >= moduloBound) { return x - moduloVal; } else if (typeOpts.unsigned) { if (x < 0) { x += moduloVal; } else if (x === -0) { // don't return negative zero return 0; } } return x; } } conversions["void"] = function () { return undefined; }; conversions["boolean"] = function (val) { return !!val; }; conversions["byte"] = createNumberConversion(8, { unsigned: false }); conversions["octet"] = createNumberConversion(8, { unsigned: true }); conversions["short"] = createNumberConversion(16, { unsigned: false }); conversions["unsigned short"] = createNumberConversion(16, { unsigned: true }); conversions["long"] = createNumberConversion(32, { unsigned: false }); conversions["unsigned long"] = createNumberConversion(32, { unsigned: true }); conversions["long long"] = createNumberConversion(32, { unsigned: false, moduloBitLength: 64 }); conversions["unsigned long long"] = createNumberConversion(32, { unsigned: true, moduloBitLength: 64 }); conversions["double"] = function (V) { const x = +V; if (!Number.isFinite(x)) { throw new TypeError("Argument is not a finite floating-point value"); } return x; }; conversions["unrestricted double"] = function (V) { const x = +V; if (isNaN(x)) { throw new TypeError("Argument is NaN"); } return x; }; // not quite valid, but good enough for JS conversions["float"] = conversions["double"]; conversions["unrestricted float"] = conversions["unrestricted double"]; conversions["DOMString"] = function (V, opts) { if (!opts) opts = {}; if (opts.treatNullAsEmptyString && V === null) { return ""; } return String(V); }; conversions["ByteString"] = function (V, opts) { const x = String(V); let c = undefined; for (let i = 0; (c = x.codePointAt(i)) !== undefined; ++i) { if (c > 255) { throw new TypeError("Argument is not a valid bytestring"); } } return x; }; conversions["USVString"] = function (V) { const S = String(V); const n = S.length; const U = []; for (let i = 0; i < n; ++i) { const c = S.charCodeAt(i); if (c < 0xD800 || c > 0xDFFF) { U.push(String.fromCodePoint(c)); } else if (0xDC00 <= c && c <= 0xDFFF) { U.push(String.fromCodePoint(0xFFFD)); } else { if (i === n - 1) { U.push(String.fromCodePoint(0xFFFD)); } else { const d = S.charCodeAt(i + 1); if (0xDC00 <= d && d <= 0xDFFF) { const a = c & 0x3FF; const b = d & 0x3FF; U.push(String.fromCodePoint((2 << 15) + (2 << 9) * a + b)); ++i; } else { U.push(String.fromCodePoint(0xFFFD)); } } } } return U.join(''); }; conversions["Date"] = function (V, opts) { if (!(V instanceof Date)) { throw new TypeError("Argument is not a Date object"); } if (isNaN(V)) { return undefined; } return V; }; conversions["RegExp"] = function (V, opts) { if (!(V instanceof RegExp)) { V = new RegExp(V); } return V; }; /***/ }), /***/ 58262: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; const usm = __nccwpck_require__(40033); exports.implementation = class URLImpl { constructor(constructorArgs) { const url = constructorArgs[0]; const base = constructorArgs[1]; let parsedBase = null; if (base !== undefined) { parsedBase = usm.basicURLParse(base); if (parsedBase === "failure") { throw new TypeError("Invalid base URL"); } } const parsedURL = usm.basicURLParse(url, { baseURL: parsedBase }); if (parsedURL === "failure") { throw new TypeError("Invalid URL"); } this._url = parsedURL; // TODO: query stuff } get href() { return usm.serializeURL(this._url); } set href(v) { const parsedURL = usm.basicURLParse(v); if (parsedURL === "failure") { throw new TypeError("Invalid URL"); } this._url = parsedURL; } get origin() { return usm.serializeURLOrigin(this._url); } get protocol() { return this._url.scheme + ":"; } set protocol(v) { usm.basicURLParse(v + ":", { url: this._url, stateOverride: "scheme start" }); } get username() { return this._url.username; } set username(v) { if (usm.cannotHaveAUsernamePasswordPort(this._url)) { return; } usm.setTheUsername(this._url, v); } get password() { return this._url.password; } set password(v) { if (usm.cannotHaveAUsernamePasswordPort(this._url)) { return; } usm.setThePassword(this._url, v); } get host() { const url = this._url; if (url.host === null) { return ""; } if (url.port === null) { return usm.serializeHost(url.host); } return usm.serializeHost(url.host) + ":" + usm.serializeInteger(url.port); } set host(v) { if (this._url.cannotBeABaseURL) { return; } usm.basicURLParse(v, { url: this._url, stateOverride: "host" }); } get hostname() { if (this._url.host === null) { return ""; } return usm.serializeHost(this._url.host); } set hostname(v) { if (this._url.cannotBeABaseURL) { return; } usm.basicURLParse(v, { url: this._url, stateOverride: "hostname" }); } get port() { if (this._url.port === null) { return ""; } return usm.serializeInteger(this._url.port); } set port(v) { if (usm.cannotHaveAUsernamePasswordPort(this._url)) { return; } if (v === "") { this._url.port = null; } else { usm.basicURLParse(v, { url: this._url, stateOverride: "port" }); } } get pathname() { if (this._url.cannotBeABaseURL) { return this._url.path[0]; } if (this._url.path.length === 0) { return ""; } return "/" + this._url.path.join("/"); } set pathname(v) { if (this._url.cannotBeABaseURL) { return; } this._url.path = []; usm.basicURLParse(v, { url: this._url, stateOverride: "path start" }); } get search() { if (this._url.query === null || this._url.query === "") { return ""; } return "?" + this._url.query; } set search(v) { // TODO: query stuff const url = this._url; if (v === "") { url.query = null; return; } const input = v[0] === "?" ? v.substring(1) : v; url.query = ""; usm.basicURLParse(input, { url, stateOverride: "query" }); } get hash() { if (this._url.fragment === null || this._url.fragment === "") { return ""; } return "#" + this._url.fragment; } set hash(v) { if (v === "") { this._url.fragment = null; return; } const input = v[0] === "#" ? v.substring(1) : v; this._url.fragment = ""; usm.basicURLParse(input, { url: this._url, stateOverride: "fragment" }); } toJSON() { return this.href; } }; /***/ }), /***/ 80653: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; const conversions = __nccwpck_require__(15871); const utils = __nccwpck_require__(60276); const Impl = __nccwpck_require__(58262); const impl = utils.implSymbol; function URL(url) { if (!this || this[impl] || !(this instanceof URL)) { throw new TypeError("Failed to construct 'URL': Please use the 'new' operator, this DOM object constructor cannot be called as a function."); } if (arguments.length < 1) { throw new TypeError("Failed to construct 'URL': 1 argument required, but only " + arguments.length + " present."); } const args = []; for (let i = 0; i < arguments.length && i < 2; ++i) { args[i] = arguments[i]; } args[0] = conversions["USVString"](args[0]); if (args[1] !== undefined) { args[1] = conversions["USVString"](args[1]); } module.exports.setup(this, args); } URL.prototype.toJSON = function toJSON() { if (!this || !module.exports.is(this)) { throw new TypeError("Illegal invocation"); } const args = []; for (let i = 0; i < arguments.length && i < 0; ++i) { args[i] = arguments[i]; } return this[impl].toJSON.apply(this[impl], args); }; Object.defineProperty(URL.prototype, "href", { get() { return this[impl].href; }, set(V) { V = conversions["USVString"](V); this[impl].href = V; }, enumerable: true, configurable: true }); URL.prototype.toString = function () { if (!this || !module.exports.is(this)) { throw new TypeError("Illegal invocation"); } return this.href; }; Object.defineProperty(URL.prototype, "origin", { get() { return this[impl].origin; }, enumerable: true, configurable: true }); Object.defineProperty(URL.prototype, "protocol", { get() { return this[impl].protocol; }, set(V) { V = conversions["USVString"](V); this[impl].protocol = V; }, enumerable: true, configurable: true }); Object.defineProperty(URL.prototype, "username", { get() { return this[impl].username; }, set(V) { V = conversions["USVString"](V); this[impl].username = V; }, enumerable: true, configurable: true }); Object.defineProperty(URL.prototype, "password", { get() { return this[impl].password; }, set(V) { V = conversions["USVString"](V); this[impl].password = V; }, enumerable: true, configurable: true }); Object.defineProperty(URL.prototype, "host", { get() { return this[impl].host; }, set(V) { V = conversions["USVString"](V); this[impl].host = V; }, enumerable: true, configurable: true }); Object.defineProperty(URL.prototype, "hostname", { get() { return this[impl].hostname; }, set(V) { V = conversions["USVString"](V); this[impl].hostname = V; }, enumerable: true, configurable: true }); Object.defineProperty(URL.prototype, "port", { get() { return this[impl].port; }, set(V) { V = conversions["USVString"](V); this[impl].port = V; }, enumerable: true, configurable: true }); Object.defineProperty(URL.prototype, "pathname", { get() { return this[impl].pathname; }, set(V) { V = conversions["USVString"](V); this[impl].pathname = V; }, enumerable: true, configurable: true }); Object.defineProperty(URL.prototype, "search", { get() { return this[impl].search; }, set(V) { V = conversions["USVString"](V); this[impl].search = V; }, enumerable: true, configurable: true }); Object.defineProperty(URL.prototype, "hash", { get() { return this[impl].hash; }, set(V) { V = conversions["USVString"](V); this[impl].hash = V; }, enumerable: true, configurable: true }); module.exports = { is(obj) { return !!obj && obj[impl] instanceof Impl.implementation; }, create(constructorArgs, privateData) { let obj = Object.create(URL.prototype); this.setup(obj, constructorArgs, privateData); return obj; }, setup(obj, constructorArgs, privateData) { if (!privateData) privateData = {}; privateData.wrapper = obj; obj[impl] = new Impl.implementation(constructorArgs, privateData); obj[impl][utils.wrapperSymbol] = obj; }, interface: URL, expose: { Window: { URL: URL }, Worker: { URL: URL } } }; /***/ }), /***/ 73323: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; exports.URL = __nccwpck_require__(80653)["interface"]; exports.serializeURL = __nccwpck_require__(40033).serializeURL; exports.serializeURLOrigin = __nccwpck_require__(40033).serializeURLOrigin; exports.basicURLParse = __nccwpck_require__(40033).basicURLParse; exports.setTheUsername = __nccwpck_require__(40033).setTheUsername; exports.setThePassword = __nccwpck_require__(40033).setThePassword; exports.serializeHost = __nccwpck_require__(40033).serializeHost; exports.serializeInteger = __nccwpck_require__(40033).serializeInteger; exports.parseURL = __nccwpck_require__(40033).parseURL; /***/ }), /***/ 40033: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { "use strict"; const punycode = __nccwpck_require__(85477); const tr46 = __nccwpck_require__(42299); const specialSchemes = { ftp: 21, file: null, gopher: 70, http: 80, https: 443, ws: 80, wss: 443 }; const failure = Symbol("failure"); function countSymbols(str) { return punycode.ucs2.decode(str).length; } function at(input, idx) { const c = input[idx]; return isNaN(c) ? undefined : String.fromCodePoint(c); } function isASCIIDigit(c) { return c >= 0x30 && c <= 0x39; } function isASCIIAlpha(c) { return (c >= 0x41 && c <= 0x5A) || (c >= 0x61 && c <= 0x7A); } function isASCIIAlphanumeric(c) { return isASCIIAlpha(c) || isASCIIDigit(c); } function isASCIIHex(c) { return isASCIIDigit(c) || (c >= 0x41 && c <= 0x46) || (c >= 0x61 && c <= 0x66); } function isSingleDot(buffer) { return buffer === "." || buffer.toLowerCase() === "%2e"; } function isDoubleDot(buffer) { buffer = buffer.toLowerCase(); return buffer === ".." || buffer === "%2e." || buffer === ".%2e" || buffer === "%2e%2e"; } function isWindowsDriveLetterCodePoints(cp1, cp2) { return isASCIIAlpha(cp1) && (cp2 === 58 || cp2 === 124); } function isWindowsDriveLetterString(string) { return string.length === 2 && isASCIIAlpha(string.codePointAt(0)) && (string[1] === ":" || string[1] === "|"); } function isNormalizedWindowsDriveLetterString(string) { return string.length === 2 && isASCIIAlpha(string.codePointAt(0)) && string[1] === ":"; } function containsForbiddenHostCodePoint(string) { return string.search(/\u0000|\u0009|\u000A|\u000D|\u0020|#|%|\/|:|\?|@|\[|\\|\]/) !== -1; } function containsForbiddenHostCodePointExcludingPercent(string) { return string.search(/\u0000|\u0009|\u000A|\u000D|\u0020|#|\/|:|\?|@|\[|\\|\]/) !== -1; } function isSpecialScheme(scheme) { return specialSchemes[scheme] !== undefined; } function isSpecial(url) { return isSpecialScheme(url.scheme); } function defaultPort(scheme) { return specialSchemes[scheme]; } function percentEncode(c) { let hex = c.toString(16).toUpperCase(); if (hex.length === 1) { hex = "0" + hex; } return "%" + hex; } function utf8PercentEncode(c) { const buf = new Buffer(c); let str = ""; for (let i = 0; i < buf.length; ++i) { str += percentEncode(buf[i]); } return str; } function utf8PercentDecode(str) { const input = new Buffer(str); const output = []; for (let i = 0; i < input.length; ++i) { if (input[i] !== 37) { output.push(input[i]); } else if (input[i] === 37 && isASCIIHex(input[i + 1]) && isASCIIHex(input[i + 2])) { output.push(parseInt(input.slice(i + 1, i + 3).toString(), 16)); i += 2; } else { output.push(input[i]); } } return new Buffer(output).toString(); } function isC0ControlPercentEncode(c) { return c <= 0x1F || c > 0x7E; } const extraPathPercentEncodeSet = new Set([32, 34, 35, 60, 62, 63, 96, 123, 125]); function isPathPercentEncode(c) { return isC0ControlPercentEncode(c) || extraPathPercentEncodeSet.has(c); } const extraUserinfoPercentEncodeSet = new Set([47, 58, 59, 61, 64, 91, 92, 93, 94, 124]); function isUserinfoPercentEncode(c) { return isPathPercentEncode(c) || extraUserinfoPercentEncodeSet.has(c); } function percentEncodeChar(c, encodeSetPredicate) { const cStr = String.fromCodePoint(c); if (encodeSetPredicate(c)) { return utf8PercentEncode(cStr); } return cStr; } function parseIPv4Number(input) { let R = 10; if (input.length >= 2 && input.charAt(0) === "0" && input.charAt(1).toLowerCase() === "x") { input = input.substring(2); R = 16; } else if (input.length >= 2 && input.charAt(0) === "0") { input = input.substring(1); R = 8; } if (input === "") { return 0; } const regex = R === 10 ? /[^0-9]/ : (R === 16 ? /[^0-9A-Fa-f]/ : /[^0-7]/); if (regex.test(input)) { return failure; } return parseInt(input, R); } function parseIPv4(input) { const parts = input.split("."); if (parts[parts.length - 1] === "") { if (parts.length > 1) { parts.pop(); } } if (parts.length > 4) { return input; } const numbers = []; for (const part of parts) { if (part === "") { return input; } const n = parseIPv4Number(part); if (n === failure) { return input; } numbers.push(n); } for (let i = 0; i < numbers.length - 1; ++i) { if (numbers[i] > 255) { return failure; } } if (numbers[numbers.length - 1] >= Math.pow(256, 5 - numbers.length)) { return failure; } let ipv4 = numbers.pop(); let counter = 0; for (const n of numbers) { ipv4 += n * Math.pow(256, 3 - counter); ++counter; } return ipv4; } function serializeIPv4(address) { let output = ""; let n = address; for (let i = 1; i <= 4; ++i) { output = String(n % 256) + output; if (i !== 4) { output = "." + output; } n = Math.floor(n / 256); } return output; } function parseIPv6(input) { const address = [0, 0, 0, 0, 0, 0, 0, 0]; let pieceIndex = 0; let compress = null; let pointer = 0; input = punycode.ucs2.decode(input); if (input[pointer] === 58) { if (input[pointer + 1] !== 58) { return failure; } pointer += 2; ++pieceIndex; compress = pieceIndex; } while (pointer < input.length) { if (pieceIndex === 8) { return failure; } if (input[pointer] === 58) { if (compress !== null) { return failure; } ++pointer; ++pieceIndex; compress = pieceIndex; continue; } let value = 0; let length = 0; while (length < 4 && isASCIIHex(input[pointer])) { value = value * 0x10 + parseInt(at(input, pointer), 16); ++pointer; ++length; } if (input[pointer] === 46) { if (length === 0) { return failure; } pointer -= length; if (pieceIndex > 6) { return failure; } let numbersSeen = 0; while (input[pointer] !== undefined) { let ipv4Piece = null; if (numbersSeen > 0) { if (input[pointer] === 46 && numbersSeen < 4) { ++pointer; } else { return failure; } } if (!isASCIIDigit(input[pointer])) { return failure; } while (isASCIIDigit(input[pointer])) { const number = parseInt(at(input, pointer)); if (ipv4Piece === null) { ipv4Piece = number; } else if (ipv4Piece === 0) { return failure; } else { ipv4Piece = ipv4Piece * 10 + number; } if (ipv4Piece > 255) { return failure; } ++pointer; } address[pieceIndex] = address[pieceIndex] * 0x100 + ipv4Piece; ++numbersSeen; if (numbersSeen === 2 || numbersSeen === 4) { ++pieceIndex; } } if (numbersSeen !== 4) { return failure; } break; } else if (input[pointer] === 58) { ++pointer; if (input[pointer] === undefined) { return failure; } } else if (input[pointer] !== undefined) { return failure; } address[pieceIndex] = value; ++pieceIndex; } if (compress !== null) { let swaps = pieceIndex - compress; pieceIndex = 7; while (pieceIndex !== 0 && swaps > 0) { const temp = address[compress + swaps - 1]; address[compress + swaps - 1] = address[pieceIndex]; address[pieceIndex] = temp; --pieceIndex; --swaps; } } else if (compress === null && pieceIndex !== 8) { return failure; } return address; } function serializeIPv6(address) { let output = ""; const seqResult = findLongestZeroSequence(address); const compress = seqResult.idx; let ignore0 = false; for (let pieceIndex = 0; pieceIndex <= 7; ++pieceIndex) { if (ignore0 && address[pieceIndex] === 0) { continue; } else if (ignore0) { ignore0 = false; } if (compress === pieceIndex) { const separator = pieceIndex === 0 ? "::" : ":"; output += separator; ignore0 = true; continue; } output += address[pieceIndex].toString(16); if (pieceIndex !== 7) { output += ":"; } } return output; } function parseHost(input, isSpecialArg) { if (input[0] === "[") { if (input[input.length - 1] !== "]") { return failure; } return parseIPv6(input.substring(1, input.length - 1)); } if (!isSpecialArg) { return parseOpaqueHost(input); } const domain = utf8PercentDecode(input); const asciiDomain = tr46.toASCII(domain, false, tr46.PROCESSING_OPTIONS.NONTRANSITIONAL, false); if (asciiDomain === null) { return failure; } if (containsForbiddenHostCodePoint(asciiDomain)) { return failure; } const ipv4Host = parseIPv4(asciiDomain); if (typeof ipv4Host === "number" || ipv4Host === failure) { return ipv4Host; } return asciiDomain; } function parseOpaqueHost(input) { if (containsForbiddenHostCodePointExcludingPercent(input)) { return failure; } let output = ""; const decoded = punycode.ucs2.decode(input); for (let i = 0; i < decoded.length; ++i) { output += percentEncodeChar(decoded[i], isC0ControlPercentEncode); } return output; } function findLongestZeroSequence(arr) { let maxIdx = null; let maxLen = 1; // only find elements > 1 let currStart = null; let currLen = 0; for (let i = 0; i < arr.length; ++i) { if (arr[i] !== 0) { if (currLen > maxLen) { maxIdx = currStart; maxLen = currLen; } currStart = null; currLen = 0; } else { if (currStart === null) { currStart = i; } ++currLen; } } // if trailing zeros if (currLen > maxLen) { maxIdx = currStart; maxLen = currLen; } return { idx: maxIdx, len: maxLen }; } function serializeHost(host) { if (typeof host === "number") { return serializeIPv4(host); } // IPv6 serializer if (host instanceof Array) { return "[" + serializeIPv6(host) + "]"; } return host; } function trimControlChars(url) { return url.replace(/^[\u0000-\u001F\u0020]+|[\u0000-\u001F\u0020]+$/g, ""); } function trimTabAndNewline(url) { return url.replace(/\u0009|\u000A|\u000D/g, ""); } function shortenPath(url) { const path = url.path; if (path.length === 0) { return; } if (url.scheme === "file" && path.length === 1 && isNormalizedWindowsDriveLetter(path[0])) { return; } path.pop(); } function includesCredentials(url) { return url.username !== "" || url.password !== ""; } function cannotHaveAUsernamePasswordPort(url) { return url.host === null || url.host === "" || url.cannotBeABaseURL || url.scheme === "file"; } function isNormalizedWindowsDriveLetter(string) { return /^[A-Za-z]:$/.test(string); } function URLStateMachine(input, base, encodingOverride, url, stateOverride) { this.pointer = 0; this.input = input; this.base = base || null; this.encodingOverride = encodingOverride || "utf-8"; this.stateOverride = stateOverride; this.url = url; this.failure = false; this.parseError = false; if (!this.url) { this.url = { scheme: "", username: "", password: "", host: null, port: null, path: [], query: null, fragment: null, cannotBeABaseURL: false }; const res = trimControlChars(this.input); if (res !== this.input) { this.parseError = true; } this.input = res; } const res = trimTabAndNewline(this.input); if (res !== this.input) { this.parseError = true; } this.input = res; this.state = stateOverride || "scheme start"; this.buffer = ""; this.atFlag = false; this.arrFlag = false; this.passwordTokenSeenFlag = false; this.input = punycode.ucs2.decode(this.input); for (; this.pointer <= this.input.length; ++this.pointer) { const c = this.input[this.pointer]; const cStr = isNaN(c) ? undefined : String.fromCodePoint(c); // exec state machine const ret = this["parse " + this.state](c, cStr); if (!ret) { break; // terminate algorithm } else if (ret === failure) { this.failure = true; break; } } } URLStateMachine.prototype["parse scheme start"] = function parseSchemeStart(c, cStr) { if (isASCIIAlpha(c)) { this.buffer += cStr.toLowerCase(); this.state = "scheme"; } else if (!this.stateOverride) { this.state = "no scheme"; --this.pointer; } else { this.parseError = true; return failure; } return true; }; URLStateMachine.prototype["parse scheme"] = function parseScheme(c, cStr) { if (isASCIIAlphanumeric(c) || c === 43 || c === 45 || c === 46) { this.buffer += cStr.toLowerCase(); } else if (c === 58) { if (this.stateOverride) { if (isSpecial(this.url) && !isSpecialScheme(this.buffer)) { return false; } if (!isSpecial(this.url) && isSpecialScheme(this.buffer)) { return false; } if ((includesCredentials(this.url) || this.url.port !== null) && this.buffer === "file") { return false; } if (this.url.scheme === "file" && (this.url.host === "" || this.url.host === null)) { return false; } } this.url.scheme = this.buffer; this.buffer = ""; if (this.stateOverride) { return false; } if (this.url.scheme === "file") { if (this.input[this.pointer + 1] !== 47 || this.input[this.pointer + 2] !== 47) { this.parseError = true; } this.state = "file"; } else if (isSpecial(this.url) && this.base !== null && this.base.scheme === this.url.scheme) { this.state = "special relative or authority"; } else if (isSpecial(this.url)) { this.state = "special authority slashes"; } else if (this.input[this.pointer + 1] === 47) { this.state = "path or authority"; ++this.pointer; } else { this.url.cannotBeABaseURL = true; this.url.path.push(""); this.state = "cannot-be-a-base-URL path"; } } else if (!this.stateOverride) { this.buffer = ""; this.state = "no scheme"; this.pointer = -1; } else { this.parseError = true; return failure; } return true; }; URLStateMachine.prototype["parse no scheme"] = function parseNoScheme(c) { if (this.base === null || (this.base.cannotBeABaseURL && c !== 35)) { return failure; } else if (this.base.cannotBeABaseURL && c === 35) { this.url.scheme = this.base.scheme; this.url.path = this.base.path.slice(); this.url.query = this.base.query; this.url.fragment = ""; this.url.cannotBeABaseURL = true; this.state = "fragment"; } else if (this.base.scheme === "file") { this.state = "file"; --this.pointer; } else { this.state = "relative"; --this.pointer; } return true; }; URLStateMachine.prototype["parse special relative or authority"] = function parseSpecialRelativeOrAuthority(c) { if (c === 47 && this.input[this.pointer + 1] === 47) { this.state = "special authority ignore slashes"; ++this.pointer; } else { this.parseError = true; this.state = "relative"; --this.pointer; } return true; }; URLStateMachine.prototype["parse path or authority"] = function parsePathOrAuthority(c) { if (c === 47) { this.state = "authority"; } else { this.state = "path"; --this.pointer; } return true; }; URLStateMachine.prototype["parse relative"] = function parseRelative(c) { this.url.scheme = this.base.scheme; if (isNaN(c)) { this.url.username = this.base.username; this.url.password = this.base.password; this.url.host = this.base.host; this.url.port = this.base.port; this.url.path = this.base.path.slice(); this.url.query = this.base.query; } else if (c === 47) { this.state = "relative slash"; } else if (c === 63) { this.url.username = this.base.username; this.url.password = this.base.password; this.url.host = this.base.host; this.url.port = this.base.port; this.url.path = this.base.path.slice(); this.url.query = ""; this.state = "query"; } else if (c === 35) { this.url.username = this.base.username; this.url.password = this.base.password; this.url.host = this.base.host; this.url.port = this.base.port; this.url.path = this.base.path.slice(); this.url.query = this.base.query; this.url.fragment = ""; this.state = "fragment"; } else if (isSpecial(this.url) && c === 92) { this.parseError = true; this.state = "relative slash"; } else { this.url.username = this.base.username; this.url.password = this.base.password; this.url.host = this.base.host; this.url.port = this.base.port; this.url.path = this.base.path.slice(0, this.base.path.length - 1); this.state = "path"; --this.pointer; } return true; }; URLStateMachine.prototype["parse relative slash"] = function parseRelativeSlash(c) { if (isSpecial(this.url) && (c === 47 || c === 92)) { if (c === 92) { this.parseError = true; } this.state = "special authority ignore slashes"; } else if (c === 47) { this.state = "authority"; } else { this.url.username = this.base.username; this.url.password = this.base.password; this.url.host = this.base.host; this.url.port = this.base.port; this.state = "path"; --this.pointer; } return true; }; URLStateMachine.prototype["parse special authority slashes"] = function parseSpecialAuthoritySlashes(c) { if (c === 47 && this.input[this.pointer + 1] === 47) { this.state = "special authority ignore slashes"; ++this.pointer; } else { this.parseError = true; this.state = "special authority ignore slashes"; --this.pointer; } return true; }; URLStateMachine.prototype["parse special authority ignore slashes"] = function parseSpecialAuthorityIgnoreSlashes(c) { if (c !== 47 && c !== 92) { this.state = "authority"; --this.pointer; } else { this.parseError = true; } return true; }; URLStateMachine.prototype["parse authority"] = function parseAuthority(c, cStr) { if (c === 64) { this.parseError = true; if (this.atFlag) { this.buffer = "%40" + this.buffer; } this.atFlag = true; // careful, this is based on buffer and has its own pointer (this.pointer != pointer) and inner chars const len = countSymbols(this.buffer); for (let pointer = 0; pointer < len; ++pointer) { const codePoint = this.buffer.codePointAt(pointer); if (codePoint === 58 && !this.passwordTokenSeenFlag) { this.passwordTokenSeenFlag = true; continue; } const encodedCodePoints = percentEncodeChar(codePoint, isUserinfoPercentEncode); if (this.passwordTokenSeenFlag) { this.url.password += encodedCodePoints; } else { this.url.username += encodedCodePoints; } } this.buffer = ""; } else if (isNaN(c) || c === 47 || c === 63 || c === 35 || (isSpecial(this.url) && c === 92)) { if (this.atFlag && this.buffer === "") { this.parseError = true; return failure; } this.pointer -= countSymbols(this.buffer) + 1; this.buffer = ""; this.state = "host"; } else { this.buffer += cStr; } return true; }; URLStateMachine.prototype["parse hostname"] = URLStateMachine.prototype["parse host"] = function parseHostName(c, cStr) { if (this.stateOverride && this.url.scheme === "file") { --this.pointer; this.state = "file host"; } else if (c === 58 && !this.arrFlag) { if (this.buffer === "") { this.parseError = true; return failure; } const host = parseHost(this.buffer, isSpecial(this.url)); if (host === failure) { return failure; } this.url.host = host; this.buffer = ""; this.state = "port"; if (this.stateOverride === "hostname") { return false; } } else if (isNaN(c) || c === 47 || c === 63 || c === 35 || (isSpecial(this.url) && c === 92)) { --this.pointer; if (isSpecial(this.url) && this.buffer === "") { this.parseError = true; return failure; } else if (this.stateOverride && this.buffer === "" && (includesCredentials(this.url) || this.url.port !== null)) { this.parseError = true; return false; } const host = parseHost(this.buffer, isSpecial(this.url)); if (host === failure) { return failure; } this.url.host = host; this.buffer = ""; this.state = "path start"; if (this.stateOverride) { return false; } } else { if (c === 91) { this.arrFlag = true; } else if (c === 93) { this.arrFlag = false; } this.buffer += cStr; } return true; }; URLStateMachine.prototype["parse port"] = function parsePort(c, cStr) { if (isASCIIDigit(c)) { this.buffer += cStr; } else if (isNaN(c) || c === 47 || c === 63 || c === 35 || (isSpecial(this.url) && c === 92) || this.stateOverride) { if (this.buffer !== "") { const port = parseInt(this.buffer); if (port > Math.pow(2, 16) - 1) { this.parseError = true; return failure; } this.url.port = port === defaultPort(this.url.scheme) ? null : port; this.buffer = ""; } if (this.stateOverride) { return false; } this.state = "path start"; --this.pointer; } else { this.parseError = true; return failure; } return true; }; const fileOtherwiseCodePoints = new Set([47, 92, 63, 35]); URLStateMachine.prototype["parse file"] = function parseFile(c) { this.url.scheme = "file"; if (c === 47 || c === 92) { if (c === 92) { this.parseError = true; } this.state = "file slash"; } else if (this.base !== null && this.base.scheme === "file") { if (isNaN(c)) { this.url.host = this.base.host; this.url.path = this.base.path.slice(); this.url.query = this.base.query; } else if (c === 63) { this.url.host = this.base.host; this.url.path = this.base.path.slice(); this.url.query = ""; this.state = "query"; } else if (c === 35) { this.url.host = this.base.host; this.url.path = this.base.path.slice(); this.url.query = this.base.query; this.url.fragment = ""; this.state = "fragment"; } else { if (this.input.length - this.pointer - 1 === 0 || // remaining consists of 0 code points !isWindowsDriveLetterCodePoints(c, this.input[this.pointer + 1]) || (this.input.length - this.pointer - 1 >= 2 && // remaining has at least 2 code points !fileOtherwiseCodePoints.has(this.input[this.pointer + 2]))) { this.url.host = this.base.host; this.url.path = this.base.path.slice(); shortenPath(this.url); } else { this.parseError = true; } this.state = "path"; --this.pointer; } } else { this.state = "path"; --this.pointer; } return true; }; URLStateMachine.prototype["parse file slash"] = function parseFileSlash(c) { if (c === 47 || c === 92) { if (c === 92) { this.parseError = true; } this.state = "file host"; } else { if (this.base !== null && this.base.scheme === "file") { if (isNormalizedWindowsDriveLetterString(this.base.path[0])) { this.url.path.push(this.base.path[0]); } else { this.url.host = this.base.host; } } this.state = "path"; --this.pointer; } return true; }; URLStateMachine.prototype["parse file host"] = function parseFileHost(c, cStr) { if (isNaN(c) || c === 47 || c === 92 || c === 63 || c === 35) { --this.pointer; if (!this.stateOverride && isWindowsDriveLetterString(this.buffer)) { this.parseError = true; this.state = "path"; } else if (this.buffer === "") { this.url.host = ""; if (this.stateOverride) { return false; } this.state = "path start"; } else { let host = parseHost(this.buffer, isSpecial(this.url)); if (host === failure) { return failure; } if (host === "localhost") { host = ""; } this.url.host = host; if (this.stateOverride) { return false; } this.buffer = ""; this.state = "path start"; } } else { this.buffer += cStr; } return true; }; URLStateMachine.prototype["parse path start"] = function parsePathStart(c) { if (isSpecial(this.url)) { if (c === 92) { this.parseError = true; } this.state = "path"; if (c !== 47 && c !== 92) { --this.pointer; } } else if (!this.stateOverride && c === 63) { this.url.query = ""; this.state = "query"; } else if (!this.stateOverride && c === 35) { this.url.fragment = ""; this.state = "fragment"; } else if (c !== undefined) { this.state = "path"; if (c !== 47) { --this.pointer; } } return true; }; URLStateMachine.prototype["parse path"] = function parsePath(c) { if (isNaN(c) || c === 47 || (isSpecial(this.url) && c === 92) || (!this.stateOverride && (c === 63 || c === 35))) { if (isSpecial(this.url) && c === 92) { this.parseError = true; } if (isDoubleDot(this.buffer)) { shortenPath(this.url); if (c !== 47 && !(isSpecial(this.url) && c === 92)) { this.url.path.push(""); } } else if (isSingleDot(this.buffer) && c !== 47 && !(isSpecial(this.url) && c === 92)) { this.url.path.push(""); } else if (!isSingleDot(this.buffer)) { if (this.url.scheme === "file" && this.url.path.length === 0 && isWindowsDriveLetterString(this.buffer)) { if (this.url.host !== "" && this.url.host !== null) { this.parseError = true; this.url.host = ""; } this.buffer = this.buffer[0] + ":"; } this.url.path.push(this.buffer); } this.buffer = ""; if (this.url.scheme === "file" && (c === undefined || c === 63 || c === 35)) { while (this.url.path.length > 1 && this.url.path[0] === "") { this.parseError = true; this.url.path.shift(); } } if (c === 63) { this.url.query = ""; this.state = "query"; } if (c === 35) { this.url.fragment = ""; this.state = "fragment"; } } else { // TODO: If c is not a URL code point and not "%", parse error. if (c === 37 && (!isASCIIHex(this.input[this.pointer + 1]) || !isASCIIHex(this.input[this.pointer + 2]))) { this.parseError = true; } this.buffer += percentEncodeChar(c, isPathPercentEncode); } return true; }; URLStateMachine.prototype["parse cannot-be-a-base-URL path"] = function parseCannotBeABaseURLPath(c) { if (c === 63) { this.url.query = ""; this.state = "query"; } else if (c === 35) { this.url.fragment = ""; this.state = "fragment"; } else { // TODO: Add: not a URL code point if (!isNaN(c) && c !== 37) { this.parseError = true; } if (c === 37 && (!isASCIIHex(this.input[this.pointer + 1]) || !isASCIIHex(this.input[this.pointer + 2]))) { this.parseError = true; } if (!isNaN(c)) { this.url.path[0] = this.url.path[0] + percentEncodeChar(c, isC0ControlPercentEncode); } } return true; }; URLStateMachine.prototype["parse query"] = function parseQuery(c, cStr) { if (isNaN(c) || (!this.stateOverride && c === 35)) { if (!isSpecial(this.url) || this.url.scheme === "ws" || this.url.scheme === "wss") { this.encodingOverride = "utf-8"; } const buffer = new Buffer(this.buffer); // TODO: Use encoding override instead for (let i = 0; i < buffer.length; ++i) { if (buffer[i] < 0x21 || buffer[i] > 0x7E || buffer[i] === 0x22 || buffer[i] === 0x23 || buffer[i] === 0x3C || buffer[i] === 0x3E) { this.url.query += percentEncode(buffer[i]); } else { this.url.query += String.fromCodePoint(buffer[i]); } } this.buffer = ""; if (c === 35) { this.url.fragment = ""; this.state = "fragment"; } } else { // TODO: If c is not a URL code point and not "%", parse error. if (c === 37 && (!isASCIIHex(this.input[this.pointer + 1]) || !isASCIIHex(this.input[this.pointer + 2]))) { this.parseError = true; } this.buffer += cStr; } return true; }; URLStateMachine.prototype["parse fragment"] = function parseFragment(c) { if (isNaN(c)) { // do nothing } else if (c === 0x0) { this.parseError = true; } else { // TODO: If c is not a URL code point and not "%", parse error. if (c === 37 && (!isASCIIHex(this.input[this.pointer + 1]) || !isASCIIHex(this.input[this.pointer + 2]))) { this.parseError = true; } this.url.fragment += percentEncodeChar(c, isC0ControlPercentEncode); } return true; }; function serializeURL(url, excludeFragment) { let output = url.scheme + ":"; if (url.host !== null) { output += "//"; if (url.username !== "" || url.password !== "") { output += url.username; if (url.password !== "") { output += ":" + url.password; } output += "@"; } output += serializeHost(url.host); if (url.port !== null) { output += ":" + url.port; } } else if (url.host === null && url.scheme === "file") { output += "//"; } if (url.cannotBeABaseURL) { output += url.path[0]; } else { for (const string of url.path) { output += "/" + string; } } if (url.query !== null) { output += "?" + url.query; } if (!excludeFragment && url.fragment !== null) { output += "#" + url.fragment; } return output; } function serializeOrigin(tuple) { let result = tuple.scheme + "://"; result += serializeHost(tuple.host); if (tuple.port !== null) { result += ":" + tuple.port; } return result; } module.exports.serializeURL = serializeURL; module.exports.serializeURLOrigin = function (url) { // https://url.spec.whatwg.org/#concept-url-origin switch (url.scheme) { case "blob": try { return module.exports.serializeURLOrigin(module.exports.parseURL(url.path[0])); } catch (e) { // serializing an opaque origin returns "null" return "null"; } case "ftp": case "gopher": case "http": case "https": case "ws": case "wss": return serializeOrigin({ scheme: url.scheme, host: url.host, port: url.port }); case "file": // spec says "exercise to the reader", chrome says "file://" return "file://"; default: // serializing an opaque origin returns "null" return "null"; } }; module.exports.basicURLParse = function (input, options) { if (options === undefined) { options = {}; } const usm = new URLStateMachine(input, options.baseURL, options.encodingOverride, options.url, options.stateOverride); if (usm.failure) { return "failure"; } return usm.url; }; module.exports.setTheUsername = function (url, username) { url.username = ""; const decoded = punycode.ucs2.decode(username); for (let i = 0; i < decoded.length; ++i) { url.username += percentEncodeChar(decoded[i], isUserinfoPercentEncode); } }; module.exports.setThePassword = function (url, password) { url.password = ""; const decoded = punycode.ucs2.decode(password); for (let i = 0; i < decoded.length; ++i) { url.password += percentEncodeChar(decoded[i], isUserinfoPercentEncode); } }; module.exports.serializeHost = serializeHost; module.exports.cannotHaveAUsernamePasswordPort = cannotHaveAUsernamePasswordPort; module.exports.serializeInteger = function (integer) { return String(integer); }; module.exports.parseURL = function (input, options) { if (options === undefined) { options = {}; } // We don't handle blobs, so this just delegates: return module.exports.basicURLParse(input, { baseURL: options.baseURL, encodingOverride: options.encodingOverride }); }; /***/ }), /***/ 60276: /***/ ((module) => { "use strict"; module.exports.mixin = function mixin(target, source) { const keys = Object.getOwnPropertyNames(source); for (let i = 0; i < keys.length; ++i) { Object.defineProperty(target, keys[i], Object.getOwnPropertyDescriptor(source, keys[i])); } }; module.exports.wrapperSymbol = Symbol("wrapper"); module.exports.implSymbol = Symbol("impl"); module.exports.wrapperForImpl = function (impl) { return impl[module.exports.wrapperSymbol]; }; module.exports.implForWrapper = function (wrapper) { return wrapper[module.exports.implSymbol]; }; /***/ }), /***/ 72043: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { ;(function (sax) { // wrapper for non-node envs sax.parser = function (strict, opt) { return new SAXParser(strict, opt) } sax.SAXParser = SAXParser sax.SAXStream = SAXStream sax.createStream = createStream // When we pass the MAX_BUFFER_LENGTH position, start checking for buffer overruns. // When we check, schedule the next check for MAX_BUFFER_LENGTH - (max(buffer lengths)), // since that's the earliest that a buffer overrun could occur. This way, checks are // as rare as required, but as often as necessary to ensure never crossing this bound. // Furthermore, buffers are only tested at most once per write(), so passing a very // large string into write() might have undesirable effects, but this is manageable by // the caller, so it is assumed to be safe. Thus, a call to write() may, in the extreme // edge case, result in creating at most one complete copy of the string passed in. // Set to Infinity to have unlimited buffers. sax.MAX_BUFFER_LENGTH = 64 * 1024 var buffers = [ 'comment', 'sgmlDecl', 'textNode', 'tagName', 'doctype', 'procInstName', 'procInstBody', 'entity', 'attribName', 'attribValue', 'cdata', 'script' ] sax.EVENTS = [ 'text', 'processinginstruction', 'sgmldeclaration', 'doctype', 'comment', 'opentagstart', 'attribute', 'opentag', 'closetag', 'opencdata', 'cdata', 'closecdata', 'error', 'end', 'ready', 'script', 'opennamespace', 'closenamespace' ] function SAXParser (strict, opt) { if (!(this instanceof SAXParser)) { return new SAXParser(strict, opt) } var parser = this clearBuffers(parser) parser.q = parser.c = '' parser.bufferCheckPosition = sax.MAX_BUFFER_LENGTH parser.opt = opt || {} parser.opt.lowercase = parser.opt.lowercase || parser.opt.lowercasetags parser.looseCase = parser.opt.lowercase ? 'toLowerCase' : 'toUpperCase' parser.tags = [] parser.closed = parser.closedRoot = parser.sawRoot = false parser.tag = parser.error = null parser.strict = !!strict parser.noscript = !!(strict || parser.opt.noscript) parser.state = S.BEGIN parser.strictEntities = parser.opt.strictEntities parser.ENTITIES = parser.strictEntities ? Object.create(sax.XML_ENTITIES) : Object.create(sax.ENTITIES) parser.attribList = [] // namespaces form a prototype chain. // it always points at the current tag, // which protos to its parent tag. if (parser.opt.xmlns) { parser.ns = Object.create(rootNS) } // mostly just for error reporting parser.trackPosition = parser.opt.position !== false if (parser.trackPosition) { parser.position = parser.line = parser.column = 0 } emit(parser, 'onready') } if (!Object.create) { Object.create = function (o) { function F () {} F.prototype = o var newf = new F() return newf } } if (!Object.keys) { Object.keys = function (o) { var a = [] for (var i in o) if (o.hasOwnProperty(i)) a.push(i) return a } } function checkBufferLength (parser) { var maxAllowed = Math.max(sax.MAX_BUFFER_LENGTH, 10) var maxActual = 0 for (var i = 0, l = buffers.length; i < l; i++) { var len = parser[buffers[i]].length if (len > maxAllowed) { // Text/cdata nodes can get big, and since they're buffered, // we can get here under normal conditions. // Avoid issues by emitting the text node now, // so at least it won't get any bigger. switch (buffers[i]) { case 'textNode': closeText(parser) break case 'cdata': emitNode(parser, 'oncdata', parser.cdata) parser.cdata = '' break case 'script': emitNode(parser, 'onscript', parser.script) parser.script = '' break default: error(parser, 'Max buffer length exceeded: ' + buffers[i]) } } maxActual = Math.max(maxActual, len) } // schedule the next check for the earliest possible buffer overrun. var m = sax.MAX_BUFFER_LENGTH - maxActual parser.bufferCheckPosition = m + parser.position } function clearBuffers (parser) { for (var i = 0, l = buffers.length; i < l; i++) { parser[buffers[i]] = '' } } function flushBuffers (parser) { closeText(parser) if (parser.cdata !== '') { emitNode(parser, 'oncdata', parser.cdata) parser.cdata = '' } if (parser.script !== '') { emitNode(parser, 'onscript', parser.script) parser.script = '' } } SAXParser.prototype = { end: function () { end(this) }, write: write, resume: function () { this.error = null; return this }, close: function () { return this.write(null) }, flush: function () { flushBuffers(this) } } var Stream try { Stream = (__nccwpck_require__(12781).Stream) } catch (ex) { Stream = function () {} } var streamWraps = sax.EVENTS.filter(function (ev) { return ev !== 'error' && ev !== 'end' }) function createStream (strict, opt) { return new SAXStream(strict, opt) } function SAXStream (strict, opt) { if (!(this instanceof SAXStream)) { return new SAXStream(strict, opt) } Stream.apply(this) this._parser = new SAXParser(strict, opt) this.writable = true this.readable = true var me = this this._parser.onend = function () { me.emit('end') } this._parser.onerror = function (er) { me.emit('error', er) // if didn't throw, then means error was handled. // go ahead and clear error, so we can write again. me._parser.error = null } this._decoder = null streamWraps.forEach(function (ev) { Object.defineProperty(me, 'on' + ev, { get: function () { return me._parser['on' + ev] }, set: function (h) { if (!h) { me.removeAllListeners(ev) me._parser['on' + ev] = h return h } me.on(ev, h) }, enumerable: true, configurable: false }) }) } SAXStream.prototype = Object.create(Stream.prototype, { constructor: { value: SAXStream } }) SAXStream.prototype.write = function (data) { if (typeof Buffer === 'function' && typeof Buffer.isBuffer === 'function' && Buffer.isBuffer(data)) { if (!this._decoder) { var SD = (__nccwpck_require__(71576).StringDecoder) this._decoder = new SD('utf8') } data = this._decoder.write(data) } this._parser.write(data.toString()) this.emit('data', data) return true } SAXStream.prototype.end = function (chunk) { if (chunk && chunk.length) { this.write(chunk) } this._parser.end() return true } SAXStream.prototype.on = function (ev, handler) { var me = this if (!me._parser['on' + ev] && streamWraps.indexOf(ev) !== -1) { me._parser['on' + ev] = function () { var args = arguments.length === 1 ? [arguments[0]] : Array.apply(null, arguments) args.splice(0, 0, ev) me.emit.apply(me, args) } } return Stream.prototype.on.call(me, ev, handler) } // this really needs to be replaced with character classes. // XML allows all manner of ridiculous numbers and digits. var CDATA = '[CDATA[' var DOCTYPE = 'DOCTYPE' var XML_NAMESPACE = 'http://www.w3.org/XML/1998/namespace' var XMLNS_NAMESPACE = 'http://www.w3.org/2000/xmlns/' var rootNS = { xml: XML_NAMESPACE, xmlns: XMLNS_NAMESPACE } // http://www.w3.org/TR/REC-xml/#NT-NameStartChar // This implementation works on strings, a single character at a time // as such, it cannot ever support astral-plane characters (10000-EFFFF) // without a significant breaking change to either this parser, or the // JavaScript language. Implementation of an emoji-capable xml parser // is left as an exercise for the reader. var nameStart = /[:_A-Za-z\u00C0-\u00D6\u00D8-\u00F6\u00F8-\u02FF\u0370-\u037D\u037F-\u1FFF\u200C-\u200D\u2070-\u218F\u2C00-\u2FEF\u3001-\uD7FF\uF900-\uFDCF\uFDF0-\uFFFD]/ var nameBody = /[:_A-Za-z\u00C0-\u00D6\u00D8-\u00F6\u00F8-\u02FF\u0370-\u037D\u037F-\u1FFF\u200C-\u200D\u2070-\u218F\u2C00-\u2FEF\u3001-\uD7FF\uF900-\uFDCF\uFDF0-\uFFFD\u00B7\u0300-\u036F\u203F-\u2040.\d-]/ var entityStart = /[#:_A-Za-z\u00C0-\u00D6\u00D8-\u00F6\u00F8-\u02FF\u0370-\u037D\u037F-\u1FFF\u200C-\u200D\u2070-\u218F\u2C00-\u2FEF\u3001-\uD7FF\uF900-\uFDCF\uFDF0-\uFFFD]/ var entityBody = /[#:_A-Za-z\u00C0-\u00D6\u00D8-\u00F6\u00F8-\u02FF\u0370-\u037D\u037F-\u1FFF\u200C-\u200D\u2070-\u218F\u2C00-\u2FEF\u3001-\uD7FF\uF900-\uFDCF\uFDF0-\uFFFD\u00B7\u0300-\u036F\u203F-\u2040.\d-]/ function isWhitespace (c) { return c === ' ' || c === '\n' || c === '\r' || c === '\t' } function isQuote (c) { return c === '"' || c === '\'' } function isAttribEnd (c) { return c === '>' || isWhitespace(c) } function isMatch (regex, c) { return regex.test(c) } function notMatch (regex, c) { return !isMatch(regex, c) } var S = 0 sax.STATE = { BEGIN: S++, // leading byte order mark or whitespace BEGIN_WHITESPACE: S++, // leading whitespace TEXT: S++, // general stuff TEXT_ENTITY: S++, // & and such. OPEN_WAKA: S++, // < SGML_DECL: S++, // SCRIPT: S++, //